Fuel Reduction Cost Simulator

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                                        Fuel Reduction Cost Simulator–South
Configuration                                                             Change Machine Costs ($/PMH)

                System Type: Ground-Based Manual WT                          Restore Defaults          Bundler

                    Cut Type: Partial Cut                                Loading Costs
           Location (State): Arkansas                                        Include loading costs

      Yard/Skid/Forward Slope Dist (ft):                  10560          Move-In Costs
                             Percent Slope:                     3            Include move-in costs
                                  Elevation:                    0                                 Area treated:            1 acres
                                                                                One-way move-in distance:                  0 miles
  Enable Batch Mode                         Enable special processing for the Billion-Ton Study
            Batch Mode

                Documentation               Load Batch Data           Process Batch                Batch Report            View Data



                                                         Cut Tree Table
                       Chip Trees                       Small Log Trees                      Large Log Trees
                Trees/acre    Vol/tree (ft3)      Trees/acre        Vol/tree (ft3)       Trees/acre       Vol/tree (ft3)
ulator–South                           Version: 02 Mar 2008-DD


                    Residue Handling

                         Include the costs of collecting and chipping residues.

                    Tree Characteristics


                                               Chipped    Small Log      Large Log
                    Green wood density
                                    (lbs/cf)    0            0              103.483

       acres           Residue Fraction         0            0              0.22479

       miles         Hardwood Fraction          0            0              1




    View Data          Save Results                 Clear Data



                         Results List
         $/CCF            $/Ton                $/Acre
        Calculate      Clear Data
TRUE




        1   FALSE   Ground-Based
        0

TRUE
                    Cable




TRUE
FALSE               Helicopter
Ground-Based Mech WT      0              The result of harvest system
Ground-Based CTL          0   3          drop down 7
Ground-Based Manual WT    0   0
Ground-Based Manual Log   0   3          The result of harvest system
                                         selection from batch file
Cable Manual WT/Log       0
Cable Manual WT           0
Cable Manual Log          0


Cable CTL                 0       Ground-Based Manual WT
Helicopter Manual WT      0
Helicopter CTL            0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Large Log Large Log Large Log   13.5   0.0   6,750.0   1,150.0   Large Log
0.00
0
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: States&Regions                                                                                                               7/26/2012



                    A                 B                 C              D                E                  F               G                H               I              J
            List of Regions used in FRCS                                                                                              Notes on States and Regions
       1
       2    Regions              Pacific NW         Pacific SW     Rocky Mtns       North Central      Northeast           South      1. Wages vary by state.
       3    Number of states          3                  5              6                 11              12                13        2. Fuel prices vary by region (Pacific NW,
       4    List of states     Alaska            Arizona         Colorado        Illinois           Connecticut      Alabama          Northeast, etc.)
       5    in each region     Oregon            California      Idaho           Indiana            Delaware         Arkansas         3. Harvesting equations and related data vary
       6                       Washington        Hawaii          Montana         Iowa               Maine            Florida          by FRCS Variant (i.e., regional group: North,
       7                                         Nevada          South Dakota    Kansas             Maryland         Georgia          South, West).
       8                                         New Mexico      Utah            Michigan           Massachusetts    Kentucky
       9                                                         Wyoming         Minnesota          New Hampshire    Louisiana
       10                                                                        Missouri           New Jersey       Mississippi
       11                                                                        Nebraska           New York         North Carolina
       12                                                                        North Dakota       Pennsylvania     Oklahoma
       13                                                                        Ohio               Rhode Island     South Carolina
       14                                                                        Wisconsin          Vermont          Tennessee
       15                                                                                           West Virginia    Texas
       16                                                                                                            Virginia
       17
            Lookup Table for State Abbreviations                                                    Regional Groupings (FRCS Variants)
       18
                                                                                                                     Regions in the
       19                      Two-letter code   State name     State number                        Regional Group      Group         List of Regions in the Group
       20                            AL          Alabama                     1                      North                  2          North Central Northeast
       21                            AK          Alaska                      2                      South                  1          South
       22                            AZ          Arizona                     3                      West                   3          Pacific NW      Pacific SW     Rocky Mtns
       23                            AR          Arkansas                    4
       24                            CA          California                  5                      This variant of FRCS supports only the following Regional Group:
       25                            CO          Colorado                    6                      South
       26                            CT          Connecticut                 7
       27                            DE          Delaware                    8                      Regions supported by this FRCS Variant:
       28                            FL          Florida                     9                      South
       29                            GA          Georgia                   10
       30                            HI          Hawaii                    11
       31                            ID          Idaho                     12
       32                             IL         Illinois                  13
       33                            IN          Indiana                   14
       34                             IA         Iowa                      15
       35                            KS          Kansas                    16
       36                            KY          Kentucky                  17
       37                            LA          Louisiana                 18
       38                            ME          Maine                     19
       39                            MD          Maryland                  20
       40                            MA          Massachusetts             21
       41                            MI          Michigan                  22
       42                            MN          Minnesota                 23
       43                            MS          Mississippi               24
       44                            MO          Missouri                  25
       45                            MT          Montana                   26
       46                            NE          Nebraska                  27
       47                            NV          Nevada                    28
       48                            NH          New Hampshire             29
       49                            NJ          New Jersey                30
       50                            NM          New Mexico                31
       51                            NY          New York                  32
       52                            NC          North Carolina            33
       53                            ND          North Dakota              34
       54                            OH          Ohio                      35
       55                            OK          Oklahoma                  36
       56                            OR          Oregon                    37
       57                            PA          Pennsylvania              38
       58                            RI          Rhode Island              39
       59                            SC          South Carolina            40
       60                            SD          South Dakota              41
       61                            TN          Tennessee                 42
       62                            TX          Texas                     43
       63                            UT          Utah                      44
       64                            VT          Vermont                   45
       65                            VA          Virginia                  46
       66                            WA          Washington                47
       67                            WV          West Virginia             48
       68                            WI          Wisconsin                 49
       69                            WY          Wyoming                   50



                                                                                        Page 56
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: WageIndex                                                                                                                                                                                               7/26/2012




                                       A                 B                  C             D       E       F       G       H       I       J        K       L    M        N        O            P           Q          R           S           T          U

                                1   Statewide Annual Wage Index Values
                                2   ID:        NAICS 113310 Logging                           Missing due to nondisclosure requirements; interpolation not possible
                                3   Owners:    Private, all sizes                     Index value of 100 = Missouri annual wages in 2000
                                4   Series:    Average Annual Pay
                                5   State                             RPA Demand                                                                                        Logging Wages
                                6   Number     State                     Region          2000    2001    2002    2003    2004    2005    2006    2007 Notes           Fall-Buck  Other
                                7          1   Alabama                South              172.7   180.8   184.4   192.0   197.5   204.8   212.8   218.1                     29.00   23.00   = Original FRCS wages from Region 6 FY2000 Logging Cost Guide
                                8          2   Alaska                 Pacific NW         298.5   295.6   318.6   311.1   308.3   316.1   325.8   326.6                     39.15   31.05   = With 35% benefits
                                9          3   Arizona                Pacific SW         110.5   120.1   127.6   134.9   157.2   155.3   164.7   176.2                  247.15   247.15    = Average of Oregon & Washington wage-index values for 2000
                               10          4   Arkansas               South              168.9   172.1   179.8   188.4   185.1   198.8   197.6   205.1                     15.84   12.56   = Equivalent Missouri 2000 logging wage rates with 35% benefits
                               11          5   California             Pacific SW         216.6   227.9   232.0   244.1   255.2   259.2   273.4   280.6
                               12          6   Colorado               Rocky Mtns         138.4   159.7   161.3   151.2   155.7   192.7   205.0   203.4                    Arkansas         = Currently selected state
                               13          7   Connecticut            Northeast          172.3   197.3   202.8   223.8   252.7   266.0   284.7   303.4                      South          = Region corresponding to the above state
                               14          8   Delaware               Northeast          143.0   151.4   147.2   156.0   165.3   167.6   170.6   176.3  1                   South          = Region supported by this variant of FRCS
                               15          9   Florida                South              188.2   194.5   201.2   206.8   217.3   219.5   227.1   233.9                   32.49     25.77   = Wage rates with benefits for the currently selected state
                               16         10   Georgia                South              173.2   186.1   190.6   192.5   204.7   215.0   228.5   232.6
                               17         11   Hawaii                 Pacific SW         216.6   227.9   232.0   244.1   255.2   259.2   273.4   280.6  2
                               18         12   Idaho                  Rocky Mtns         213.5   221.7   229.6   230.4   243.0   249.0   257.7   263.6
                               19         13   Illinois               North Central      112.6   121.2   148.9   139.0   191.4   180.7   190.4   211.3
                               20         14   Indiana                North Central      155.3   161.4   158.7   159.7   166.6   169.2   172.5   174.1
                               21         15   Iowa                   North Central      177.1   157.0   213.4   172.5   190.7   187.6   182.7   190.9
                               22         16   Kansas                 North Central      100.0   115.8   114.4   125.1   143.5   150.8   160.3   170.0  3
                               23         17   Kentucky               South              107.4   114.7   109.8   110.3   118.3   121.8   124.1   125.7
                               24         18   Louisiana              South              168.1   178.2   183.8   197.6   199.0   213.7   221.6   229.8
                               25         19   Maine                  Northeast          178.1   191.2   192.2   202.2   214.4   223.7   232.4   240.6
                               26         20   Maryland               Northeast          144.7   159.4   155.0   154.3   170.5   179.7   187.4   190.7
                               27         21   Massachusetts          Northeast          193.3   200.9   219.4   223.0   236.6   247.7   255.7   267.9
                               28         22   Michigan               North Central      169.3   180.1   182.0   188.1   198.2   211.5   212.6   221.5
                               29         23   Minnesota              North Central      190.2   192.0   198.5   202.2   210.8   213.8   209.5   218.7
                               30         24   Mississippi            South              144.2   154.0   157.2   163.9   165.5   179.7   187.9   191.9
                               31         25   Missouri               North Central      100.0   115.8   114.4   125.1   143.5   150.8   160.3   170.0
                               32         26   Montana                Rocky Mtns         182.2   190.3   201.0   198.3   207.3   217.1   228.7   232.0
                               33         27   Nebraska               North Central      104.0   117.2   127.7   138.1   148.6   143.8   183.8   182.4
                               34         28   Nevada                 Pacific SW         127.6   138.7   140.3   136.5   123.9   130.5   172.7   153.3  4
                               35         29   New Hampshire          Northeast          186.1   201.5   205.4   214.0   236.4   236.1   256.2   263.7
                               36         30   New Jersey             Northeast          315.0   321.7   328.3   335.0   336.4   358.9   349.7   361.7
                               37         31   New Mexico             Pacific SW         132.8   131.4   139.5   144.5   147.6   146.8   146.0   152.4
                               38         32   New York               Northeast          180.5   185.7   194.6   195.9   208.9   212.0   216.1   223.9
                               39         33   North Carolina         South              169.2   178.1   183.1   185.7   197.9   205.7   210.9   217.9
                               40         34   North Dakota           North Central      144.2   154.0   157.2   163.9   165.5   179.7   187.9   191.9  5
                               41         35   Ohio                   North Central      130.9   143.1   136.2   141.7   153.2   157.8   165.0   168.1
                               42         36   Oklahoma               South              192.5   192.5   208.6   207.2   215.4   234.2   214.9   231.8
                               43         37   Oregon                 Pacific NW         240.0   244.9   255.3   257.2   261.4   271.5   276.6   282.3
                               44         38   Pennsylvania           Northeast          143.0   151.4   147.2   156.0   165.3   167.6   170.6   176.3
                               45         39   Rhode Island           Northeast          172.3   197.3   202.8   223.8   252.7   266.0   284.7   303.4  6
                               46         40   South Carolina         South              183.5   191.3   196.3   196.7   203.8   211.2   220.4   223.0
                               47         41   South Dakota           Rocky Mtns         137.3   157.1   176.8   196.6   216.4   236.2   256.0   275.8
                               48         42   Tennessee              South              135.1   146.7   148.2   153.4   162.1   172.1   181.7   186.2
                               49         43   Texas                  South              220.7   227.4   233.4   217.2   217.9   233.7   243.4   237.0
                               50         44   Utah                   Rocky Mtns         127.6   138.7   140.3   136.5   123.9   130.5   172.7   153.3
                               51         45   Vermont                Northeast          152.4   159.3   157.2   166.6   173.7   177.0   178.5   185.0
                               52         46   Virginia               South              160.7   171.3   174.3   179.4   190.0   197.9   206.9   212.5
                               53         47   Washington             Pacific NW         254.3   257.7   266.6   281.7   269.8   279.3   293.5   295.3
                               54         48   West Virginia          Northeast          122.5   130.6   130.3   133.2   136.0   142.9   152.9   152.8
                               55         49   Wisconsin              North Central      147.5   153.1   158.8   164.7   170.9   178.9   180.5   188.2
                               56         50   Wyoming                Rocky Mtns         162.4   170.5   178.6   186.7   194.8   202.9   211.0   219.1
                               57
                               58   Source: Calculated from Bureau of Labor Statistics Series ID numbers ENUxx000505113310 (Logging), where xx is a state index.
                               59   The data used to prepare this table are for statewide annual wages and salaries in logging, excluding benefits.
                               60   The data were accessed on 17 Feb 2008 from the Quarterly Census of Employment and Wages by State and County at:
                               61   http://data.bls.gov/PDQ/outside.jsp?survey=en
                               62
                               63   Notes (last column of table):
                               64      1     No data for Delaware; use Pennsylvania
                               65      2     No data for Hawaii; use California
                               66      3     No data for Kansas; use Missouri
                               67      4     No data for Nevada; use Utah
                               68      5     No data for North Dakota; use Minnesota
                               69      6     No data for Rhode Island; use Connecticut




                                                                                                                                         Page 57
                    9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: CostUpdates                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  7/26/2012




                                      A                                           B            C         D            E         F        G            H            I          J           K           L          M           N           O           P           Q     R          S           T       U                                     V                                      W              X          Y          Z         AA          AB         AC        AD          AE        AF          AG        AH          AI        AJ          AK       AL          AM           AN         AO
 1                 Cost Updates Worksheet                                   Dennis Dykstra, 18 Feb 2008
 2                                   Costs updated from Dec 2002 to:         Dec 2007
 3                                                              Region:      Pacific NW Pacific SW Rocky Mtns North Central Northeast   South
 4          Producer Price Index multiplier for equipment-cost updates:              1.18         1.18     1.18        1.18      1.18      1.18   Source: BLS series pcu333120333120, Construction machinery manufacturing, Feb 2008 (http://www.bls.gov/data/). Original data were for December 2002.
 5                2001 Weekly Average Wage, NAICS 1133 Logging:                      676          629      441         402       467       482    Source: BLS State and County Data from the Quarterly Census of Employment and Wages, Feb 2008 (http://www.bls.gov/data/). Original data were for June 2000.
 6                2006 Weekly Average Wage, NAICS 1133 Logging:                      763          754      566         511       553       579    Regional data used: PNW=OR; PSW=CA; Rockies=CO; NC=MN,WI,IL,MO; NE=NY,ME,WV; S=NC,GA,AL,MS
 7                                             Annual wage-rate inflator:         1.0245       1.0369   1.0512      1.0493    1.0345    1.0373    Note: Wage adjustments shown in shading are not currently used.
 8                             Updated wage rate (Felling & Bucking):              46.38        46.39    35.30       31.80     33.94     35.65    Instead, see the state-by-state procedure in the WageIndex worksheet.
 9                                     Updated wage rate (All Others):             36.78        36.79    28.00       25.22     26.92     28.28
10                     Regional diesel fuel prices as of update period:            2.744        2.872    2.633       2.623     2.687     2.607    Source: Energy Information Administration Diesel Prices (http://tonto.eia.doe.gov/oog/info/wohdp/diesel.asp)
11                  Diesel_fuel_price (to Data_management!$E$26):                  2.607                                                          Diesel Prices Updated: 1/12/09                                                                                                                                                                                             Original Data from the MachineCosts worksheet, retained as an historical backup
12                                                                                                                                                                                                                                                                                                                                                                           Effective date: December 2002
13                    Region used for fuel prices and equipment costs: South                                                                                                                                                                                                                                                                                                 (Wages effective December 2000)
14
15   Note: The original (2000/2002) cost data start in Column V
16                                                                          Faller/Bucker All Others                                                                                                                                                                                                                                                                         Faller/Bucker All Others
17   Wage and benefit rates ($/person-SH)                                           32.49        25.77                                                                                                                                                                                                                                                                                39.15     31.05 (taken from the USFS Region 6 Logging Cost Guide for FY 2000; presumably an average for Orgon and Washington)
18
19   Machine description:                                                   Chainsaw      FBuncher    FBuncher    FBuncher   Harvester Harvester Skidder Skidder Forwarder Forwarder Yarder Yarder      Processor Processor Loader Loader Chipper Chipper Bundler                                         Machine description:                                               Chainsaw         FBuncher FBuncher FBuncher Harvester Harvester Skidder          Skidder    Forwarder Forwarder Yarder      Yarder      Processor Processor Loader      Loader    Chipper    Chipper    Bundler
20     Qualifier:                                                                         DriveToTree SwingBoom SelfLeveling small     big       small   big     small     big       small  intermediatesmall     big       small  big    small   big                                                     1. Input Data:                                                                                S
                                                                                                                                                                                                                                                                                                                                                                                              DriveToTree wingBoomSelfLevelingsmall      big       small      big        small      big       small      intermediatesmall      big       small      big       small      big
21   Updated purchase price, $ (to MachineCosts!B6:T6)                                824     176,670     365,119     365,119 412,231 530,011 164,892 235,561 282,673        365,119 188,448 388,675 353,341 471,121 223,783 294,451 235,561 353,341 530,011                                              Purchase price as of Dec 02 (P, $) =                                          700    150,000 310,000 310,000 350,000 450,000 140,000                  200,000 240,000 310,000 160,000 330,000 300,000 400,000 190,000 250,000 200,000 300,000 450,000
22                                                                                                                                                                                                                                                                                                        Machine Horsepower rating (hp) =                                                          150        200      240          120       200        120       200         110       200        100        200         120       200        120       200        350       700        180
23                                                                                                                                                                                                                                                                                                        Machine life (n, years) =                                                     1             3          5        5            4         4          5          4          4         4         10          10          5         5          5         5          5          5          5
24   Note: As of 13 Feb 2008 helicopter logging costs have not been updated -- see the HelicopterYarding worksheet.                                                                                                                                                                                       Salvage value, percent of purchase price (sv%)                              20%          20%        15%      15%          20%       20%        20%       20%         25%       20%        10%        10%         20%       20%        30%       30%        20%       20%        20%
25                                                                                                                                                                                                                                                                                                        Utilization rate, ph/sh (ut%) =                                             50%          65%        60%      60%          65%       65%        65%       65%         65%       65%        75%        75%         65%       65%        65%       65%        75%       75%        75%
26                                                                                                                                                                                                                                                                                                        Repair and maintenance, percent of depreciation (rm%) =                    700%         100%        75%      75%       110%        110%        90%       90%       100%       100%     100%         100%       100%       100%        90%       90%      100%       100%      100%
27                                                                                                                                                                                                                                                                                                        Interest rate, percent of avg yearly investment (in%) =                      8%           8%         8%       8%           8%        8%         8%        8%          8%        8%         8%          8%         8%        8%         8%        8%         8%        8%         8%
28                                                                                                                                                                                                                                                                                                        Insurance and tax rate, percent of avg yearly investment (it%) =             7%           7%         7%       7%           7%        7%         7%        7%          7%        7%         7%          7%         7%        7%         7%        7%         7%        7%         7%
29                                                                                                                                                                                                                                                                                                        Fuel consumption rate (fcr, gal/hp-ph) =                                                0.026      0.026    0.026      0.029       0.029    0.028       0.028      0.025      0.025       0.04        0.04     0.022      0.022    0.022       0.022     0.023      0.023     0.025
30                                                                                                                                                                                                                                                                                                        Fuel cost per gallon (fcg, $/gal) =                                                     2.607      2.607    2.607      2.607       2.607    2.607       2.607      2.607      2.607    2.607        2.607      2.607      2.607    2.607       2.607     2.607      2.607     2.607
31                                                                                                                                                                                                                                                                                                        Lube and oil, percent of fuel cost (lo%) =                                               37%        37%      37%          37%       37%        37%       37%         37%       37%        10%        10%         37%       37%        37%       37%        37%       37%        37%
32                                                                                                                                                                                                                                                                                                        Crew size (persons) =                                                                      1          1        1            1         1          1          1          1         1          5           5          1         1          1         1          1          1          1
33                                                                                                                                                                                                                                                                                                        Crew wage and benefits (WB, $/SH) =                                32.48634669      25.76503 25.76503 25.76503 25.76503 25.76503 25.76503 25.76503 25.76503 25.76503 128.8252 128.8252 25.76503 25.76503 25.76503 25.76503 25.76503 25.76503 25.76503
34                                                                                                                                                                                                                                                                                                        Scheduled machine hours (SMH, sh/year) =                                  1600           1600      1600      1600        1600       1600      1600       1600       1600       1600      1600        1600       1600       1600      1600      1600       1600       1600      1600
35
36                                                                                                                                                                                                                                                                                                        2. Calculations:
37                                                                                                                                                                                                                                                                                                        Salvage value (S, $) = (P*sv%) =                                              140      30000     46500      46500       70000      90000       28000     40000       60000     62000       16000     33000       60000     80000      57000     75000       40000        60000      90000
38                                                                                                                                                                                                                                                                                                        Annual depreciation (AD, $/year) = [(P-S)/n] =                                560      40000     52700      52700       70000      90000       22400     40000       45000     62000       14400     29700       48000     64000      26600     35000       32000        48000      72000
39                                                                                                                                                                                                                                                                                                        Average yearly investment (AYI, $) = [(((P-S)*(n+1))/2n)+S] =                 700     110000    204600     204600      245000     315000       95200    140000      172500    217000       95200    196350      204000    272000     136800    180000      136000       204000     306000
40                                                                                                                                                                                                                                                                                                        Productive Machine Hours (PMH, ph/year) = (SMH*ut%) =                         800       1040       960        960        1040       1040        1040      1040        1040      1040        1200      1200        1040      1040       1040      1040        1200         1200       1200
41
42                                                                                                                                                                                                                                                                                                        3. Ownership costs:
43                                                                                                                                                                                                                                                                                                        Interest cost (IN, $/year) = (in%*AYI) =                                       56       8800      16368     16368       19600      25200        7616     11200       13800     17360        7616     15708       16320     21760      10944     14400       10880        16320      24480
44                                                                                                                                                                                                                                                                                                        Insurance and tax cost (IT, $/year) = (it%*AYI) =                              49       7700      14322     14322       17150      22050        6664      9800       12075     15190        6664     13745       14280     19040       9576     12600        9520        14280      21420
45                                                                                                                                                                                                                                                                                                        Yearly ownership cost (F$, $/year) = (AD+IN+IT) =                            665       56500      83390     83390      106750     137250       36680     61000       70875     94550       28680     59153       78600    104800      47120     62000       52400        78600     117900
46                                                                                                                                                                                                                                                                                                        Ownership cost per SMH ($/sh) = (F$/SMH) =                                   0.42       35.31      52.12     52.12       66.72      85.78       22.93     38.13       44.30     59.09       17.93     36.97       49.13     65.50      29.45     38.75       32.75        49.13      73.69
47                                                                                                                                                                                                                                                                                                        Ownership cost per PMH ($/ph) = (F$/PMH) =                                   0.83       54.33      86.86     86.86      102.64     131.97       35.27     58.65       68.15     90.91       23.90     49.29       75.58    100.77      45.31     59.62       43.67        65.50      98.25
48
49                                                                                                                                                                                                                                                                                                        4. Operating costs:
50                                                                                                                                                                                                                                                                                                        Fuel cost (F, $/ph) = (hp*fcr*fcg) =                                        0.00        10.17     13.56      16.27       9.07       15.12        8.76    14.60        7.17     13.04       10.43     20.86        6.88     11.47        6.88    11.47       20.99        41.97       11.73
51                                                                                                                                                                                                                                                                                                        Lube cost (L, $/ph) = (F*lo%) =                                             0.00         3.76      5.02       6.02       3.36        5.59        3.24     5.40        2.65      4.82        1.04      2.09        2.55      4.24        2.55     4.24        7.76        15.53        4.34
52                                                                                                                                                                                                                                                                                                        Repair and maintenance cost (RM, $/ph) = (AD*rm%/PMH) =                     4.90        38.46     41.17      41.17      74.04       95.19       19.38    34.62       43.27     59.62       12.00     24.75       46.15     61.54       23.02    30.29       26.67        40.00       60.00
53                                                                                                                                                                                                                                                                                                        Operator labor and benefit cost per PMH (WB/ut%, $/ph) =                   64.97        39.64     42.94      42.94      39.64       39.64       39.64    39.64       39.64     39.64      171.77    171.77       39.64     39.64       39.64    39.64       34.35        34.35       34.35
54                                                                                                                                                                                                                                                                                                        Operating cost per PMH (V$/PMH) = [F+L+RM+(WB/ut%)] =                      69.87        92.03    102.69     106.40     126.11      155.55       71.02    94.25       92.73    117.11      195.24    219.46       95.22    116.89       72.09    85.64       89.77       131.86      110.43
55                                                                                                                                                                                                                                                                                                        Operating cost per SMH (V$/SMH) = (V$/PMH*ut%) =                           34.94        59.82     61.61      63.84      81.97      101.10       46.17    61.27       60.27     76.12      146.43    164.59       61.89     75.98       46.86    55.67       67.33        98.89       82.82
56
57                                                                                                                                                                                                                                                                                                        5. Total Costs
58                                                                                                                                                                                                                                                                                                        Total cost per SMH ($/SMH = (F$/SMH+V$/SMH)                                35.35       95.13     113.73     115.96     148.69      186.89      69.09     99.39      104.57    135.22      164.35    201.56      111.02    141.48       76.31    94.42      100.08       148.02      156.51
59                                                                                                                                                                                                                                                                                                        Total cost per PMH ($/PMH = (F$/PMH+V$/PMH)                                70.70      146.36     189.55     193.26     228.75      287.52     106.29    152.91      160.88    208.03      219.14    268.75      170.80    217.66      117.39   145.26      133.44       197.36      208.68
60
61                                                                                                                                                                                                                                                                                                        User over-ride, $/PMH
62
63                                                                                                                                                                                                                                                                                                        Value used to calculate results, $/PMH                                     70.70      146.36     189.55     193.26     228.75      287.52     106.29    152.91      160.88    208.03      219.14    268.75      170.80    217.66      117.39   145.26      133.44       197.36      208.68
64
65                                                                                                                                                                                                                                                                                                                                                                                            FBuncher                         Harvester              Skidder               Forwarder             Yarder                Processor             Loader               Chipper                  Bundler
66                                                                                                                                                                                                                                                                                                        Avg Owning Cost, $/PMH (for move-in cost calcs)                                        76.02                           117.31                   46.96                 79.53                 36.60                 88.17                52.46                 54.58                   98.25




                                                                                                                                                                                                                                                                                            Page 58
Relevance Weights/Pick List
The user can set a maximum weight (between zero and one) for each function within each activity.
A weight of zero will eliminate that function from the cost calculation.
Notes: 1) To protect against unreasonable extrapolation, the user-set weight is not allowed to override a model-defined weigh
          2) At least one function within each activity must have a non-zero weight in order to calculate a cost for that activity.
          3) Model-defined weights are used as defaults for every function where the user does not enter a weight.
                     Current
          User-Set Model-Defined
 Activity Weight Weight Function
Manual Felling Only (All Trees)
                          0.23 A) (McNeel, 1994)
                   0      0.23 B) (Peterson, 1987)
                   0      0.23 C) (Keatley, 2000)
                   0      0.23 D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of ha
                          0.23 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                      0.00 User-Defined Felling Only (All Trees)
Manual Felling, Limbing, and Bucking (All Trees)
                0     0.23 A) (Kellogg-Olsen-Hargrave, 1986)
                0     0.23 B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience fr
                0     0.23 C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harv
                      0.23 D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in
                      0.23 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                      0.00 User-Defined Felling-Limbing-Bucking (All Trees)
Manual Felling Only (Large Trees)
                      1.00 A) (McNeel, 1994)
                0     1.00 B) (Peterson, 1987)
                0     1.00 C) (Keatley, 2000)
                0     0.00 D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of ha
                      0.23 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                      0.00 User-Defined Felling Only (Large Trees)
Manual Felling, Limbing, and Bucking (Large Trees)
                0     1.00 A) (Kellogg-Olsen-Hargrave, 1986)
                0     0.23 B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience fr
                0     0.23 C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harv
                      0.23 D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in
                      0.23 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                     0.00 User-Defined Felling-Limbing-Bucking (Large Trees)
Manual Whole-Tree Felling (Small Trees)
                     1.00 A) (McNeel, 1994)
              0      1.00 B) (Peterson, 1987)
              0      1.00 C) (Keatley, 2000)
              0      1.00 D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of ha
                     1.00 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                     0.00 User-Defined Whole-Tree Felling (Small Trees)
Manual Whole-Tree Felling (Chip Trees)
                     1.00 A) (McNeel, 1994)
              0      1.00 B) (Peterson, 1987)
                  0     1.00 C) (Keatley, 2000)
                  0     1.00 D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of ha
                        1.00 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                      0.00 User-Defined Whole-Tree Felling (Chip Trees)
Manual Felling, Limbing, and Bucking (All Log Trees)
                0     0.23 A) (Kellogg-Olsen-Hargrave, 1986)
                0     0.23 B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience fr
                0     0.23 C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harv
                      0.23 D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in
                      0.23 E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(

                        0.00 User-Defined Felling-Limbing-Bucking (All Log Trees)
Feller-Bunchers
                               Drive-to-Tree Machines
                        1.00   A) Melroe Bobcat (Johnson, 1979)
                        1.00   B) Chainsaw Heads (Greene & McNeel, 1991)
                        1.00   C) Intermittent Circular Sawheads (Greene & McNeel, 1991)
                        1.00   D) Continuous-Disk Sawheads (Greene & McNeel 1991)
                        1.00   E) Hydro-Ax 211 (Hartsough, 2001)
                        1.00   F) Bell Model T Chainsaw Head (Greene & McNeel. 1987. Productivity, costs, and levels of butt d
                        1.00   G) Hydro-Ax 411 (Lanford & Stokes. 1996. Comparison of two thinning systems. Part 2. Productiv
                        1.00   H) Drive-to-Tree Feller-Buncher, 4-wheeled in hardwood plantation (Spinelli et al. 2002)
                        1.00   I) Drive-to-Tree Feller-Buncher, 3-wheeled in hardwood plantation (Spinelli et al. 2002)

                               Swing-Boom Machines
                  0     1.00   A) Drott (Johnson, 1979) not used at present
                        1.00   B) Timbco 2520 & Cat 227 (Johnson, 1988)
                  0     1.00   C) JD 693B & Timbco 2518 (Gingras, 1988)
                        1.00   D) Timbco (Gonsier & Mandzak, 1987)
                  0     1.00   E) FERIC Generic (Gingras, J.F., 1996. The cost of product sorting during harvesting. FERIC Tec
                  0     1.00   F) (Plamondon, J. 1998. Trials of mechanized tree-length harvesting in eastern Canada. FERIC T
                        0.00   G) Timbco 420 (Hartsough, B., E. Drews, J. McNeel, T. Durston and B. Stokes. 1997. Compariso
                  0     1.00   H) Timbco 445C Hydro-Buncher (Wang et al. 2004. Production and cost analysis of a feller-bunch
                        1.00   I) Swing-Boom Tracked Feller-Buncher in hardwood plantation (Spinelli et al. 2002)

                        0.00 User-Defined Feller-Buncher
Harvesters
                        1.00   A) Hitachi EX150/Keto 500 (Schroder & Johnson, 1997)
                        1.00   B) Komatsu PC95/Hahn HSG140 (Schroder & Johnson, 1997)
                        1.00   C) Timbco T425/Pika 600 (Schroder & Johnson, 1997)
                  0     1.00   D) Timberjack 2518 (Kellogg & Bettinger, 1994)
                        1.00   E) Rottne (McNeel & Rutherford, 1994)
                        1.00   F) Norcar 600H (Brinker & Tufts, 1990)
                  0     1.00   G) Hitachi 200LC/Keto 500 (Drews et al, 2000)
                  0     1.00   H) Rottne SMV EGS w/600 (Meek, P. 2000. Productivity and costs of single-grip harvesters in co
                  0     1.00   I) Enviro w/ Pan 828 (Meek, P. 2000. Productivity and costs of single-grip harvesters in commerc
                  0     1.00   J) FERIC Generic (Gingras, J.F. 1996. The cost of product sorting during harvesting. FERIC Tech
                  0     1.00   K) (MacDonald, C. 1988. Evaluation of the Bruun T 610-H-A single grip harvester. B.S. Thesis, U
                  0     1.00   L) Rottne SMV Rapid EGS w/600 (Matzka, P. 2003. Thinning with prescribed fire and timber harv
                  0     1.00   M) JD 653C w/Waratah HTH Warrior (Matzka, P. 2003. Thinning with prescribed fire and timber h
                  0     1.00   N) Cat 320L w/Keto 500 (Matzka, P. 2003. Thinning with prescribed fire and timber harvesting me
                       1.00 O) FMG 1870 w/TJ 762B (Eliasson, L., J. Bengtsson, J. Cedergren and H. Lageson. 1999. Comp
                       1.00 P) Osa 260/752 & Valmet 862/942 (Lageson, H. 1997. Effects of thinning type on the harvester
                       1.00 Q) Ponsse Ergo (Bolding, M.C. and B. Lanford. 2002. Productivity of a Ponsse Ergo harvester wo



                     0.00 R) User-Defined Harvester
Choker and Grapple Skidding, Unbunched
                          Choker and Grapple Skidding, Unbunched (SCGU)
              0      0.31 A) CC Chokers (Johnson & Lee, 1988)
              0      1.00 B) CC Chokers (Gibson & Egging, 1973)
              0                                (disabled due
                     0.52 C) CC Chokers (Schillings, 1969) to odd results from the regression equation)
              0      1.00 D) CC Chokers (Gardner, 1979)
              0      0.00 E) Cat 518 or Cat D4H, Chokers (Andersson, B. and G. Young 1998. Harvesting coastal second
                     0.00 F) Cat 518 Grapple (Johnson, 1988)
                     1.00 G) JD 648 Grapple (Gebhardt, 1977)
                     0.00 H) Pasquali 933 Skidder
                     0.00 I) Massey-Ferguson (LeDoux and Huyler, 1992)
              0                                (disabled due 1992)
                     0.00 J) Holder A60F (LeDoux and Huyler,to odd results from the regression equation)
                     0.00 K) Forest Ant (LeDoux and Huyler, 1992)
              0                                (disabled due to odd results
                     0.00 L) Samé Minitaurus (LeDoux and Huyler, 1992) from the regression equation)
                     0.00 M) John Deere 640D cable skidder (group selection)
                     0.00 N) Timberjack 460 choker skidder
                     0.23 O) Cable skidders


                     0.00 User-Defined Skidding Unbunched
Choker and Grapple Skidding, Bunched
                          Choker and Grapple Skidding, Bunched (SCGB)
                     0.00 A) Grapple Skidders (Johnson, 1988)
                     0.00 B) Grapple Skidders (Tufts et al, 1988)
              0      0.00 C) John Deere 748E (Kosicki, K. 2000. Productivities and costs of two harvesting trials in a weste
              0      0.00 D) Cat D5H TSK Custom Track (Henderson, B. 2001. Roadside harvesting with low ground-press
              0      0.00 E) JD 748_G-II & TJ 560 (Kosicki, K. 2002. Productivity and cost of summer harvesting in a centr
              0      0.00 F) Tigercat 635 (Boswell, B. 1998. Vancouver Island mechanized thinning trials. FERIC Technica
              0      0.00 G) Tigercat 635 (Kosicki, K. 2002. Evaluation of Trans-Gesco TG88C and Tigercat 635 grapple s
                     0.00 H) John Deere 640D cable skidder (group selection, bunched) (LeDoux et al. 1993)
                     0.00 I) Timberjack 460 grapple skidder (Wang et al. 2004. Production and cost analysis of a feller-bun
                     0.00 J) Small choker skidder (Cubbage et al., 1989)
                     0.23 K) Large choker skidder (Cubbage et al., 1989)
                     0.00 L) Small grapple skidder (Cubbage et al., 1989)
                     0.23 M) Large grapple skidder (Cubbage et al., 1989)
                     0.23 N) Grapple skidders (Kluender et al., 1997)



                       0.00 User-Defined Skidding Bunched
Forwarding
                 0     1.00   A) Timberjack 230A 8-ton (Schroder & Johnson, 1997)
                       1.00   B) Rottne 10-ton (McNeel & Rutherford, 1994)
                       1.00   C) FMG 910 (Kellogg & Bettinger, 1994)
                       1.00   D) Valmet 646 12-ton (Drews et al., 2000)
                        1.00 E) TJ 1010 (Sambo, S. 1999. Reduction of trail density in a partial cut with a cut-to-length system
                        1.00 F) Fabtek 546B (Bolding, M.C. 2003. Forest fuel reduction and energywood production using a C


                        0.00 G) User-Defined Forwarder
Cable Yarding, Clearcut, Unbunched (CYCCU)
                  0     0.52 A) Idaho Jammer (Schillings, 1969)
                  0     1.00 B) Idaho Jammer (Hensel & Johnson, 1979)
                  0     1.00 C) LinkBelt 98 Live Skyline (Hensel & Johnson, 1979)
                        1.00 D) Skagit GT3 Running Skyline (Hensel & Johnson, 1979)
                        0.00 E) Skagit GT3 Running Skyline (Gardner, 1980)
                  0     0.00 F) LinkBelt 78 Shotgun Live Skyline (Gardner, 1980)
                  0     0.00 G) Washington SLH78 (Andersson, B. and G. Young. 1998. Harvesting coastal second growth fo
                        0.00 H) User-Defined Clearcut, Unbunched
Cable Yarding, Partial Cut, Unbunched (CYPCU)
                  0     0.00 A) Clearwater Shotgun Live Skyline (Johnson & Lee, 1988)
                  0     1.00 B) Madill 071 Live Skyline w/Danebo MSP (Kellogg-Olsen-Hargrave, 1986)
                        0.00 C) Skagit GT3 Running Skyline, Shelterwood (Gardner, 1980)
                        0.00 D) Skagit GT3 Running Skyline, Group Selection (Gardner, 1980)
                  0     0.00 E) LinkBelt 78 Shotgun Live Skyline, Group Selection (Gardner, 1980)
                  0     0.00 F) Madill 044 w/Bowman Mark Vd (Boswell, B. 2001. Partial cutting with a cable yarding system in
                  0     0.00 G) Skylead C40 w/Mini-Maki II (Pavel, M. 1999. Analysis of a skyline partial cutting operation in th
                  0     0.00 H) Koller K501 w/Koller SKA 2.5 manual slackpulling carriage (Yachats site: Kellogg, L., G. Milot
                  0     0.00 I) Koller K501 w/Eaglet mechanical slackpulling carriage (Kellogg, L., Miller, M. and E. Olsen. 199
                        0.00 J) (Huyler, N. and C. LeDoux. 1997. Cycle-time equation for the Koller K300 cable yarder operatin
                        0.00 K) Appalachian Thinner-LeDoux 1985 (see columns AI-AO for regression equation)
                        0.00 L) Bitterroot Yarder-LeDoux 1985 (see columns AI-AO for regression equation)
                        0.00 M) Clearwater Yarder-LeDoux 1985 (see columns AI-AO for regression equation)
                        0.00 N) Ecologger-LeDoux 1985 (see columns AI-AO for regression equation)
                        0.00 O) Skylok 78-LeDoux 1985 (see columns AI-AO for regression equation)
                        0.00 P) User-Defined Partial Cut, Unbunched
Cable Yarding, Bunched CTL Logs (CYCTL)
                        1.00 A) Diamond D210 Standing Skyline w/Eaglet Motorized Carriage (Doyal, 1997)
                        0.00 B) User-Defined CTL Bunched
I. Helicopter Yarding, Manual Log-Length
                        0.00 A) Bell 204 class
                        0.00 B) Boeing Vertol 107 - 61A
                        0.00 C) K-MAX
                        0.00 D) User-Defined
II. Helicopter Yarding, CTL
                        0.00 A) Bell 204 class
                        0.00 B) Boeing Vertol 107 - 61A
                        0.00 C) K-MAX
                        0.00 D) User-Defined
Processing
                        1.00 A) Hahn Stroke Processor (Gonsier & Mandzak, 1987)
                        1.00 B) Stroke Processor (MacDonald, 1990)
                        1.00 C) Roger Stroke Processor (Johnson, 1988)
                        1.00 D) Harricana Stroke Processor (Johnson, 1988)
                        1.00 E) Hitachi EX150/Keto 500 (Schroder & Johnson, 1997)
                        1.00 F) FERIC Generic (Gingras, J.F. 1996. The cost of product sorting during harvesting. FERIC Tec
                        1.00 G) Valmet 546 Woodstar Processor (Holtzscher, M. and B. Lanford. 1997. Tree diameter effects
                       0.00 H) User-Defined Processor
I. Loading Full-Length Logs
                       1.00 A) Front-End Loader (Vaughan, 1989)
                       0.00 B) Knuckleboom Loader, Small Logs (Brown & Kellogg, 1996)
                       0.80 C) Loaders (Hartsough et al, 1998)
                       1.00 D) Loaders (Jackson et al, 1984)
                       0.00 E) User-Defined Load Full-Length Logs
II. Loading CTL Logs
                       1.00 A) Knuckleboom Loader, CTL Logs (Brown & Kellogg, 1996)
                       0.50 B) Loaders (Jackson et al, 1984)
                       0.00 C) User-Defined Load CTL Logs
I. Chip Whole Trees
                       1.00 A) (Johnson, 1989)
                       1.00 B) Morbark 22 (Hartsough, unpublished)
                       1.00 C) Morbark 60/36 (Hartsough et al, 1997)
                       0.00 D) User-Defined Chip Whole Trees
II. Chain Flail DDC Whole Trees        (not currently included in any system)
                       1.00 A) adjusted from Chip Whole Trees
                       0.00 II.B) User-Defined Chain Flail DDC WT
III. Chip CTL Logs
                       1.00 A) Morbark 27 (Drews et al, 2001)
                       1.00 B) Morbark 60/36 (Hartsough et al, 1997)
                       0.00 III.C) User-Defined Chip CTL Logs
IV. Chip Piled Loose Residues at Landing
                       1.00 A) Drum chippers (Desrochers, L., D. Puttock and M. Ryans. 1995. Recovery of roadside residue
                       0.00 B) User-Defined Chip Piled Loose Residues at Landing
V. Chip Bundles of Residue at Landing
                       1.00 A) Assume 50% faster than chipping loose residues
                       0.00 B) User-Defined Chip Bundles of Residue at Landing
I. Bundle Residues within the stand
                       1.00 A) Timberjack Bundler (Cuchet-Roux-Spinelli, 2004)
                       1.00 B) Timberjack Bundler (Rummer, B., D. Len and O. O'Brien. 2004. Forest residues bundling proje
                       0.00 C) User-Defined Bundler
II. Residue Forwarding
                       1.00 A) Adjusted from Forwarding: Rottne 10-ton (McNeel & Rutherford, 1994)
                       0.00 B) User-Defined Residue Forwarding
override a model-defined weight of zero, even for a user-defined function.
culate a cost for that activity.
not enter a weight.

               Used
               Weight      Dykstra notes 02 Mar 2008 -- items are in red are disabled in this FRCS variant

                    0.23   Eastern hardwoods
                    0.00   Coastal BC second-growth
                    0.00   Idaho, small-diameter
                    0.00   Coastal BC second-growth
                    0.23   Southern pine

                    0.00

                    0.00   Oregon coast second growth
                    0.00   Cascades
                    0.00   Coastal BC second-growth
                    0.23   Eastern hardwoods
                    0.23   Southern pine

                    0.00

                    1.00   Eastern hardwoods
                    0.00   Coastal BC second-growth
                    0.00   Idaho, small-diameter
                    0.00   Coastal BC second-growth
                    0.23   Southern pine

                    0.00

                    0.00   Oregon coast second growth
                    0.00   Cascades
                    0.00   Coastal BC second-growth
                    0.23   Eastern hardwoods
                    0.23   Southern pine

                    0.00

                    1.00   Eastern hardwoods
                    0.00   Coastal BC second-growth
                    0.00   Idaho, small-diameter
                    0.00   Coastal BC second-growth
                    1.00   Southern pine

                    0.00

                    1.00 Northern hardwoods
                    0.00 Coastal BC second-growth
0.00 Idaho, small-diameter
0.00 Coastal BC second-growth
1.00 Southern pine

0.00

0.00   Oregon coast second growth
0.00   Oregon Cascades
0.00   Coastal BC second-growth
0.23   Eastern hardwoods
0.23   Southern pine

0.00


1.00   Interior OR-WA-ID biomass; probably OK for other regions also
1.00   Southern pine
1.00   Southern pine
1.00   Southern pine
1.00   Interior West; probably OK for other regions also
1.00   Southern pine
1.00   Southern pine
1.00   Hardwood plantation (eucalypts, California)
1.00   Hardwood plantation (eucalypts, California)


0.00   Disabled in the original FRCS due to poor results
1.00   Interior West; probably OK for other regions also
0.00   Eastern Canada
1.00   Interior lodgepole pine; probably OK for southern pine
0.00   Eastern Canada
0.00   Eastern Canada
0.00   Interior West; probably OK for other regions also
0.00   Eastern hardwoods
1.00   Hardwood plantation (eucalypts, California)

0.00

1.00   Interior West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
0.00   Coastal second growth
1.00   Interior West; probably OK for other regions also
1.00   Southern pine
0.00   Interior West
0.00   Eastern Canada
0.00   Eastern Canada
0.00   Eastern Canada
0.00   Eastern Canada
0.00   Interior West
0.00   Interior West
0.00   Interior West
1.00 Scandinavia; probably OK for other regions also
1.00 Scandinavia; probably OK for other regions also
1.00 Southern Appalachia



0.00


0.00   Interior West
0.00   Interior West
0.00   Interior West
0.00   Interior West
0.00   Coastal BC second-growth
0.00   Interior West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.23   Southern pine (added by Dykstra, 24 Feb 2008)


0.00


0.00   Interior West; probably OK for other regions also
0.00   Southern pine
0.00   Canada interior West
0.00   Coastal BC
0.00   Canada interior West
0.00   Coastal BC
0.00   Canada interior West
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 24 Feb 2008)
0.00   Southern pine (added by Dykstra, 24 Feb 2008)
0.23   Southern pine (added by Dykstra, 24 Feb 2008)
0.00   Southern pine (added by Dykstra, 24 Feb 2008)
0.23   Southern pine (added by Dykstra, 24 Feb 2008)
0.23   Southern pine (added by Dykstra, 24 Feb 2008)



0.00

0.00   Interior West; disabled by Dykstra, 02 Mar 2008--poor results at longer forwarding distances.
1.00   Interior West; probably OK for other regions also
1.00   Coastal West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
1.00 Eastern Canada; probably OK for other regions also
1.00 Southern pine; proably OK for other regions also


0.00

0.00   Interior West
0.00   Interior West
0.00   Interior West
1.00   Interior West; probably OK for other regions also
0.00   Interior West; probably OK for other regions also
0.00   Interior West
0.00   Coastal BC
0.00

0.00   Interior West
0.00   Oregon coast second-growth
0.00   Interior West; probably OK for other regions also
0.00   Interior West; probably OK for other regions also
0.00   Interior West
0.00   Coastal BC
0.00   Canada interior West
0.00   Oregon coast second-growth
0.00   Oregon Cascades
0.00   Eastern hardwoods
0.00   Eastern hardwoods (added by Dykstra, 21 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 21 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 21 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 21 Feb 2008)
0.00   Eastern hardwoods (added by Dykstra, 21 Feb 2008)
0.00

1.00 Interior West; left enabled because it's the only study of this type
0.00

0.00
0.00
0.00
0.00

0.00
0.00
0.00
0.00

1.00   Interior West (lodgepole pine); probably OK for other regions also
1.00   Eastern Canada; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
1.00   Interior West; probably OK for other regions also
1.00   Eastern Canada; probably OK for other regions also
1.00   Souther pine; probably OK for other regions also
0.00

1.00   New Zealand
0.00   Interior West
0.80   Interior West
1.00   Interior West
0.00

1.00 Interior West
0.50 Interior West
0.00

1.00 Interior West
1.00 California
1.00 Interior West
0.00

1.00
0.00

1.00 Interior West
1.00 Interior West
0.00

1.00 Eastern Canada; probably OK for other regions also
0.00

1.00
0.00

1.00 France; probably OK for other regions also
1.00 Interior West; probably OK for other regions also
0.00

1.00
0.00
ing distances.
Sta     State Perc    One- Trea Proj    Harvesting system- must Chip      trees Residue Chip       CHIPS CHIPS           Small   Small       Small   Small     Small log    Larg    Large       Larg Large     Large log    move-in   move-in collect        partial   log      All costs   All Costs   All Costs   CT chips   Residue ST logs   LT   logs   CT chips   Residue
              ent     way   tmen ect    match one of the harvest per     acres. fraction  trees    Average hardwood      log     log trees   log     log       trees        e log   log trees   e log log      trees        cost      miles   chip           cut       loadin   $/CCF       $/GT        $/ac        GT/ac      Chips   CCF/ac    CCF/ac      $/GT       chips
nd            Slop    yardi t    Elev   systems on the user Number            of for chip avera    Density proportion    trees   residue     trees   trees     hardwood     trees   residue     trees trees    hardwood                       residues                 g cost                                                  GT/ac                                    $/GT
1001     AL   e9.72   1000 Area atio
                      ng/sk   1         interface page.
                                        Ground-Based Mech WT     chip trees cut trees. 0 ge
                                                                  576.5727291              0.35    (lbs/ft3).
                                                                                                   104.307 0.5103855     per
                                                                                                                         67.41   fraction.
                                                                                                                                        45   avera
                                                                                                                                              2.21   averag
                                                                                                                                                      104.31   proportion
                                                                                                                                                                0.5103855   per
                                                                                                                                                                            74.6    fraction
                                                                                                                                                                                           40   avera average proportion
                                                                                                                                                                                                 12.8  90.661 0.5103855          0         0             1        1        0
1003     AL   3.59    1000    1         Ground-Based Mech WT      413.4300312           0  0.35    100.146    0.470216   66.67         45    2.47    100.15     0.470216    80.2          40     16.1  92.147    0.470216        0         0             1        1        0
1005     AL   7.09    1000    1         Ground-Based Mech WT      561.1176692           0  0.34    101.871 0.4799343     62.16         45    2.39    101.87    0.4799343    68.9          40     17.4  89.614 0.4799343          0         0             1        1        0
1007     AL   12.6    1000    1         Ground-Based Mech WT      514.5012305           0  0.26    101.407 0.5184848     61.31         45    2.53    101.41    0.5184848    83.4          40       19  90.603 0.5184848          0         0             1        1        0
1009     AL   14.3    1000    1         Ground-Based Mech WT      662.6080098           0  0.25       96.74 0.5849999    53.28         45    2.71     96.74    0.5849999    77.2          40     17.6  90.236 0.5849999          0         0             1        1        0
1011     AL   5.89    1000    1         Ground-Based Mech WT      438.6235716           0  0.32    103.065 0.4941122     54.32         45    2.31    103.07    0.4941122    75.2          40     15.7  89.258 0.4941122          0         0             1        1        0
1013     AL   7.53    1000    1         Ground-Based Mech WT      663.1904876           0  0.23    103.822 0.4398709     60.63         45    2.33    103.82    0.4398709    75.5          40     13.9  90.496 0.4398709          0         0             1        1        0
1015     AL   14.3    1000    1         Ground-Based Mech WT      647.5043358           0  0.26    99.9017 0.6350376     55.57         45    2.37    99.902    0.6350376    81.8          40     16.6  89.636 0.6350376          0         0             1        1        0
1017     AL   7.74    1000    1         Ground-Based Mech WT      575.4213647           0  0.24    101.721 0.4277842     46.14         45    2.39    101.72    0.4277842    81.3          40     15.9    88.08 0.4277842         0         0             1        1        0
1019     AL   11.2    1000    1         Ground-Based Mech WT      559.6541744           0  0.35    97.5191    0.606842   51.28         45    2.47    97.519     0.606842    89.9          40     15.5  89.758    0.606842        0         0             1        1        0
1021     AL   11.2    1000    1         Ground-Based Mech WT      676.1412257           0  0.32    100.629 0.6138153     64.44         45    2.41    100.63    0.6138153    67.9          40     15.4  90.407 0.6138153          0         0             1        1        0
1023     AL   11.1    1000    1         Ground-Based Mech WT      680.2419022           0  0.28      102.14 0.3917818    74.78         45    2.43    102.14    0.3917818      90          40     18.2  89.456 0.3917818          0         0             1        1        0
1025     AL   9.16    1000    1         Ground-Based Mech WT      541.4923743           0  0.26    99.5657 0.4075487      43.3         45    2.53    99.566    0.4075487    72.5          40     18.2  88.701 0.4075487          0         0             1        1        0
1027     AL   17.6    1000    1         Ground-Based Mech WT      651.6559535           0  0.31    98.6319 0.5410758     63.17         45    2.52    98.632    0.5410758    92.7          40     14.9  88.886 0.5410758          0         0             1        1        0
1029     AL   20.9    1000    1         Ground-Based Mech WT      578.6313418           0    0.3   100.232 0.4975972      63.9         45    2.49    100.23    0.4975972    88.2          40     16.9  87.128 0.4975972          0         0             1        1        0
1031     AL   7.22    1000    1         Ground-Based Mech WT         478.47187          0  0.29    98.0008 0.4321461     54.38         45    3.08    98.001    0.4321461    85.1          40     12.8  88.586 0.4321461          0         0             1        1        0
1033     AL   15.2    1000    1         Ground-Based Mech WT       492.852967           0  0.28    94.3868 0.8208191     40.84         45    2.65    94.387    0.8208191    69.8          40     18.8  88.399 0.8208191          0         0             1        1        0
1035     AL    7.2    1000    1         Ground-Based Mech WT      484.6199542           0    0.3   100.332 0.4612327     52.87         45    2.49    100.33    0.4612327    76.6          40     14.9  89.269 0.4612327          0         0             1        1        0
1037     AL   16.2    1000    1         Ground-Based Mech WT      654.5311477           0  0.29    101.486 0.4272209     64.48         45    2.42    101.49    0.4272209    73.9          40     12.9  90.487 0.4272209          0         0             1        1        0
1039     AL   4.81    1000    1         Ground-Based Mech WT      348.8397394           0  0.32    100.478 0.3299072     56.95         45    2.63    100.48    0.3299072    79.2          40     13.7  90.792 0.3299072          0         0             1        1        0
1041     AL   6.68    1000    1         Ground-Based Mech WT      389.9852362           0  0.32    99.0553 0.4905574     53.38         45    2.73    99.055    0.4905574     106          40     15.8  89.326 0.4905574          0         0             1        1        0
1043     AL   18.9    1000    1         Ground-Based Mech WT      678.7926755           0  0.32    98.0453    0.732179   64.37         45    2.51    98.045     0.732179    75.3          40     16.9  88.207    0.732179        0         0             1        1        0
1045     AL   6.34    1000    1         Ground-Based Mech WT      427.0085703           0  0.37    97.1696 0.6144064     44.04         45    2.53     97.17    0.6144064      83          40     18.9  90.741 0.6144064          0         0             1        1        0
1047     AL   5.81    1000    1         Ground-Based Mech WT      422.8395087           0  0.34    102.077 0.6204292     69.49         45     2.4    102.08    0.6204292    92.2          40     15.2  91.083 0.6204292          0         0             1        1        0
1049     AL   14.8    1000    1         Ground-Based Mech WT      593.1291788           0  0.31    96.7594 0.7239413      53.9         45    2.52    96.759    0.7239413    85.7          40     14.9  89.725 0.7239413          0         0             1        1        0
1051     AL   9.39    1000    1         Ground-Based Mech WT      622.0080427           0  0.29    101.314 0.5694263     57.51         45    2.51    101.31    0.5694263    81.3          40     14.2    92.66 0.5694263         0         0             1        1        0
1053     AL   5.82    1000    1         Ground-Based Mech WT      507.4583416           0  0.28    104.204 0.3029363     52.79         45    2.23     104.2    0.3029363    50.4          40     18.1    92.15 0.3029363         0         0             1        1        0
1055     AL   15.1    1000    1         Ground-Based Mech WT      449.4171663           0  0.34    96.5552 0.7589524     41.96         45    2.58    96.555    0.7589524    84.3          40     17.6  87.926 0.7589524          0         0             1        1        0
1057     AL     16    1000    1         Ground-Based Mech WT      854.3088686           0  0.29    96.3321 0.4810477     67.11         45    2.73    96.332    0.4810477    81.8          40       14    88.87 0.4810477         0         0             1        1        0
1059     AL   17.2    1000    1         Ground-Based Mech WT      643.5387951           0  0.32    99.9978 0.7256692     73.02         45    2.29    99.998    0.7256692    73.9          40     14.3  89.213 0.7256692          0         0             1        1        0
1061     AL   2.25    1000    1         Ground-Based Mech WT      172.9090126           0  0.49    94.2773 0.5292911     35.18         45    2.74    94.277    0.5292911    78.3          40     16.9  90.703 0.5292911          0         0             1        1        0
1063     AL   4.59    1000    1         Ground-Based Mech WT      509.4595654           0  0.33    100.836 0.6813563     41.82         45    2.49    100.84    0.6813563    74.6          40     19.6    91.31 0.6813563         0         0             1        1        0
1065     AL   8.62    1000    1         Ground-Based Mech WT      586.3644299           0  0.28    101.243 0.6278547     61.76         45    2.44    101.24    0.6278547    86.6          40     16.8  90.807 0.6278547          0         0             1        1        0
1067     AL   8.34    1000    1         Ground-Based Mech WT      533.3181297           0  0.33    103.943 0.5728092     50.58         45    2.45    103.94    0.5728092    54.1          40     17.6  92.494 0.5728092          0         0             1        1        0
1069     AL    4.8    1000    1         Ground-Based Mech WT      335.1861153           0  0.37    99.2384 0.6881519     42.76         45    2.64    99.238    0.6881519      80          40     14.5  90.225 0.6881519          0         0             1        1        0
1071     AL   20.2    1000    1         Ground-Based Mech WT      462.7423685           0  0.41       93.56 0.9137069    52.22         45    2.76     93.56    0.9137069    98.3          40     19.7  91.887 0.9137069          0         0             1        1        0
1073     AL   19.5    1000    1         Ground-Based Mech WT      764.5990556           0  0.29    98.6024 0.4959895     50.13         45    2.69    98.602    0.4959895    77.8          40     17.9    89.19 0.4959895         0         0             1        1        0
1075     AL   11.4    1000    1         Ground-Based Mech WT      648.7768767           0  0.29    99.4655 0.6576837     65.02         45     2.4    99.465    0.6576837    82.7          40     15.1  91.289 0.6576837          0         0             1        1        0
1077     AL   13.4    1000    1         Ground-Based Mech WT      485.0375644           0  0.39    94.5928 0.8772444      58.6         45    2.47    94.593    0.8772444      66          40     18.7  90.622 0.8772444          0         0             1        1        0
1079     AL   9.98    1000    1         Ground-Based Mech WT      414.3107189           0  0.37       94.97 0.6634198    48.11         45    2.66     94.97    0.6634198    78.2          40     19.3  89.894 0.6634198          0         0             1        1        0
1081     AL    7.8    1000    1         Ground-Based Mech WT      548.8120213           0  0.31    101.318    0.484044   77.78         45    2.54    101.32     0.484044    88.9          40     14.1  89.882    0.484044        0         0             1        1        0
1083     AL   9.85    1000    1         Ground-Based Mech WT      275.2864475           0    0.4     92.772 0.9690751     43.8         45     2.6    92.772    0.9690751      77          40     22.8    94.13 0.9690751         0         0             1        1        0
1085     AL   5.71    1000    1         Ground-Based Mech WT       593.241783           0  0.32    101.752 0.5090975     75.63         45    2.52    101.75    0.5090975    86.3          40     11.7     90.2 0.5090975         0         0             1        1        0
1087     AL   7.11    1000    1         Ground-Based Mech WT      449.1232013           0  0.35    100.144 0.5714201     48.76         45    2.53    100.14    0.5714201    77.9          40     18.5  91.778 0.5714201          0         0             1        1        0
1089     AL   13.3    1000    1         Ground-Based Mech WT      360.9907516           0    0.4   93.5436 0.8360723     40.16         45    2.62    93.544    0.8360723     105          40     23.2  92.574 0.8360723          0         0             1        1        0
1091     AL   8.26    1000    1         Ground-Based Mech WT      554.6952872           0    0.3   103.469    0.579711   57.83         45    2.32    103.47     0.579711    65.3          40       20  91.067    0.579711        0         0             1        1        0
1093     AL   16.1    1000    1         Ground-Based Mech WT      662.6782153           0  0.27    101.511 0.4584762     67.25         45    2.44    101.51    0.4584762    83.3          40     11.1  90.612 0.4584762          0         0             1        1        0
1095     AL   14.5    1000    1         Ground-Based Mech WT      350.9524898           0  0.33    93.6848 0.7670475     36.77         45    2.85    93.685    0.7670475    81.9          40     21.1  90.923 0.7670475          0         0             1        1        0
1097     AL   5.13    1000    1         Ground-Based Mech WT      376.2827533           0    0.4   99.1429 0.4436058     43.56         45    2.59    99.143    0.4436058      75          40     15.6  91.884 0.4436058          0         0             1        1        0
1099     AL   8.92    1000    1         Ground-Based Mech WT      541.6213282           0    0.3   100.662    0.460074   48.04         45    2.41    100.66     0.460074    67.6          40     18.5  90.567    0.460074        0         0             1        1        0
1101     AL   5.33    1000    1         Ground-Based Mech WT      441.0848017           0  0.32    100.124 0.7773935     49.15         45    2.49    100.12    0.7773935    86.5          40     19.4  92.476 0.7773935          0         0             1        1        0
1103     AL   13.8    1000    1         Ground-Based Mech WT      509.5505802           0  0.27    92.9817 0.7781198     38.67         45    2.71    92.982    0.7781198      82          40     22.6  90.893 0.7781198          0         0             1        1        0
1105     AL   9.75    1000    1         Ground-Based Mech WT       530.665779           0  0.29    101.176 0.4556803     66.13         45    2.57    101.18    0.4556803    88.3          40     12.9  91.616 0.4556803          0         0             1        1        0
1107     AL   8.69    1000    1         Ground-Based Mech WT      687.2942117           0  0.25    103.652 0.5271397     52.57         45    2.21    103.65    0.5271397    63.4          40       19  90.055 0.5271397          0         0             1        1        0
1109     AL   6.65    1000    1         Ground-Based Mech WT      667.7987555           0  0.33    100.703 0.5026107     76.84         45    2.61     100.7    0.5026107    83.4          40       13  90.115 0.5026107          0         0             1        1        0
1111     AL   13.4    1000    1         Ground-Based Mech WT      597.8523659           0    0.3     98.557 0.4576625    59.76         45    2.61    98.557    0.4576625    85.7          40     12.9  88.459 0.4576625          0         0             1        1        0
1113     AL   7.13    1000    1         Ground-Based Mech WT      517.8997423           0  0.28    102.868 0.5913701     58.82         45    2.39    102.87    0.5913701    75.5          40     14.7  93.717 0.5913701          0         0             1        1        0
1115     AL   15.6    1000    1         Ground-Based Mech WT       566.422062           0  0.33    98.0823     0.67025   47.38         45    2.62    98.082       0.67025     72          40     18.1  88.396     0.67025        0         0             1        1        0
1117     AL   14.6    1000    1         Ground-Based Mech WT         606.76436          0    0.3   99.4432 0.6038658     54.09         45    2.48    99.443    0.6038658    78.2          40     16.8  90.215 0.6038658          0         0             1        1        0
1119     AL    6.6    1000    1         Ground-Based Mech WT      495.5968514           0    0.3     103.31 0.5815768    60.42         45    2.36    103.31    0.5815768    71.8          40       19     91.4 0.5815768         0         0             1        1        0
1121     AL   13.3    1000    1         Ground-Based Mech WT      599.1421116           0  0.32    102.269 0.4334798     69.04         45    2.46    102.27    0.4334798    83.9          40     13.8  89.028 0.4334798          0         0             1        1        0
1123     AL   11.5    1000    1         Ground-Based Mech WT      572.2531467           0  0.29    102.348 0.5122284     64.93         45    2.43    102.35    0.5122284    79.2          40     14.6  88.965 0.5122284          0         0             1        1        0
1125     AL   16.5    1000    1         Ground-Based Mech WT       701.502725           0  0.29    100.025 0.5596046     58.01         45    2.49    100.02    0.5596046    79.9          40     16.2  90.295 0.5596046          0         0             1        1        0
1127     AL   19.8    1000    1         Ground-Based Mech WT      691.4605031           0  0.32    99.9553    0.583289   67.24         45    2.44    99.955     0.583289    73.9          40     15.4  89.723    0.583289        0         0             1        1        0
1129     AL   6.02    1000    1         Ground-Based Mech WT      564.2701732           0  0.35    97.6298    0.419269   67.82         45    2.61     97.63     0.419269    87.7          40     14.9  90.307    0.419269        0         0             1        1        0
1131     AL   8.16    1000    1         Ground-Based Mech WT      665.0356184           0  0.29    103.077 0.4526982      77.7         45    2.45    103.08    0.4526982    79.9          40     16.6    90.44 0.4526982         0         0             1        1        0
1133     AL   19.1    1000    1         Ground-Based Mech WT      641.5069378           0  0.31    99.1689 0.5803332     61.79         45    2.55    99.169    0.5803332      85          40     15.8  88.888 0.5803332          0         0             1        1        0
5001     AR   2.34    1000    1         Ground-Based Mech WT      279.5780342           0  0.35    100.791 0.8987917     56.11         45    2.16    100.79    0.8987917      87          40     24.8  93.893 0.8987917          0         0             1        1        0
5003     AR   1.62    1000    1         Ground-Based Mech WT      536.4899667           0  0.27    104.032 0.3111679     53.81         45    2.26    104.03    0.3111679    55.7          40     14.7  90.655 0.3111679          0         0             1        1        0
5005     AR   17.7    1000    1         Ground-Based Mech WT      520.8459076           0  0.28      98.922 0.8213429    54.39         45    2.17    98.922    0.8213429    90.6          40       14  92.366 0.8213429          0         0             1        1        0
5007     AR   28.3    1000    1         Ground-Based Mech WT      389.2970726           0  0.34    95.5615 0.9774185     46.82         45    2.17    95.562    0.9774185    72.4          40     17.1  98.263 0.9774185          0         0             1        1        0
5009     AR   20.6    1000    1         Ground-Based Mech WT      363.0980301           0  0.36    96.6222 0.9659085     54.55         45    2.26    96.622    0.9659085    83.5          40     14.4  97.306 0.9659085          0         0             1        1        0
5011     AR   2.07    1000    1         Ground-Based Mech WT      570.2233264           0  0.28    101.741 0.3983873     48.77         45    2.27    101.74    0.3983873    63.1          40       23  89.912 0.3983873          0         0             1        1        0
5013     AR   2.21    1000    1         Ground-Based Mech WT         532.51335          0  0.28    102.703 0.4657802      67.3         45    2.28     102.7    0.4657802    80.2          40     18.3  91.573 0.4657802          0         0             1        1        0
5015     AR   23.4    1000    1         Ground-Based Mech WT       423.483486           0  0.28    98.3587 0.8989596     46.62         45    2.13    98.359    0.8989596    84.1          40     14.1  96.245 0.8989596          0         0             1        1        0
5017     AR   2.72    1000    1         Ground-Based Mech WT      343.4292376           0  0.37    99.9833 0.9379182     35.55         45    1.68    99.983    0.9379182    55.7          40     20.5  98.067 0.9379182          0         0             1        1        0
5019     AR   5.51    1000    1         Ground-Based Mech WT      534.8467113           0  0.24    99.3358 0.4531079     44.81         45    2.38    99.336    0.4531079    82.2          40     17.7  89.759 0.4531079          0         0             1        1        0
5021     AR   5.69    1000    1         Ground-Based Mech WT      253.7749906           0  0.38    91.9823    0.989251   45.34         45    2.53    91.982     0.989251    76.2          40     21.4  91.713    0.989251        0         0             1        1        0
5023     AR   11.8    1000    1         Ground-Based Mech WT      367.8692831           0  0.33      94.286 0.5761671    65.46         45    2.34    94.286    0.5761671     103          40     13.2    88.42 0.5761671         0         0             1        1        0
5025     AR   2.93    1000    1         Ground-Based Mech WT         509.97454          0  0.26    105.581 0.4800786     55.81         45    2.11    105.58    0.4800786    60.6          40     21.9  90.849 0.4800786          0         0             1        1        0
5027     AR   2.47    1000    1         Ground-Based Mech WT      625.6509214           0  0.27    101.548 0.4030792     55.91         45    2.29    101.55    0.4030792    77.6          40     18.2  88.038 0.4030792          0         0             1        1        0
5029     AR   11.1    1000    1         Ground-Based Mech WT      398.8818465           0  0.35    94.1602    0.684559      50         45    2.29     94.16     0.684559    74.8          40     15.1  91.414    0.684559        0         0             1        1        0
5031     AR   4.38    1000    1         Ground-Based Mech WT       236.101841           0  0.45    90.0725 0.6811031     47.71         45    2.59    90.073    0.6811031     122          40     21.5  93.608 0.6811031          0         0             1        1        0
5033     AR   16.1    1000    1         Ground-Based Mech WT       322.551112           0  0.37    94.9469 0.8722048     50.05         45    2.33    94.947    0.8722048    85.1          40     17.5  93.013 0.8722048          0         0             1        1        0
5035     AR   1.29    1000    1         Ground-Based Mech WT         92.313935          0  0.33    86.9829           1   35.64         45    2.46    86.983             1   91.7          40     27.4  89.667           1        0         0             1        1        0
5037     AR   16.1    1000    1         Ground-Based Mech WT      387.8682864           0  0.47      91.351          1   35.97         45    2.41    91.351             1     72          40     22.1  95.664           1        0         0             1        1        0
5039     AR   3.88    1000    1         Ground-Based Mech WT      550.8024886           0  0.28    101.822 0.3804513     49.99         45    2.32    101.82    0.3804513    81.3          40     17.6  89.113 0.3804513          0         0             1        1        0
5041     AR   4.22    1000    1         Ground-Based Mech WT      146.1002733           0    0.4   93.5794 0.5554687      20.4         45    2.12    93.579    0.5554687    57.8          40       31  106.42 0.5554687          0         0             1        1        0
5043     AR   2.62    1000    1         Ground-Based Mech WT      608.3516593           0  0.29      105.16 0.3690374    59.48         45    2.14    105.16    0.3690374    84.3          40     16.9  91.048 0.3690374          0         0             1        1        0
5045     AR   9.47    1000    1         Ground-Based Mech WT      451.5651976           0  0.27    99.7588 0.8429035     66.54         45    2.09    99.759    0.8429035    78.3          40     12.5  92.492 0.8429035          0         0             1        1        0
5047     AR   11.6    1000    1         Ground-Based Mech WT      386.9662092           0  0.33    93.9905    0.824883   53.72         45    2.38    93.991     0.824883    96.9          40     16.4  91.521    0.824883        0         0             1        1        0
5049     AR   10.3    1000    1         Ground-Based Mech WT      527.2443596           0  0.31    104.924 0.8136232     62.29         45     2.1    104.92    0.8136232    83.1          40     12.2  95.889 0.8136232          0         0             1        1        0
5051     AR   19.1    1000    1         Ground-Based Mech WT      460.4209105           0  0.33      92.843 0.4805796    57.75         45    2.34    92.843    0.4805796    98.3          40     12.9  87.866 0.4805796          0         0             1        1        0
5053     AR   3.12    1000    1         Ground-Based Mech WT      507.0079188           0    0.3     102.01 0.5405786    58.46         45     2.3    102.01    0.5405786    78.4          40     17.8  91.682 0.5405786          0         0             1        1        0
5055     AR   6.73    1000    1         Ground-Based Mech WT      729.3653158           0  0.36    92.5965    0.886729   39.21         45    2.31    92.597     0.886729    81.4          40       17  91.116    0.886729        0         0             1        1        0
5057     AR    4.1    1000    1         Ground-Based Mech WT      509.2598761           0  0.34    101.558 0.5381654     53.62         45    2.16    101.56    0.5381654    91.3          40     17.8  89.823 0.5381654          0         0             1        1        0
5059     AR   10.4    1000    1         Ground-Based Mech WT         838.24656          0  0.25    100.049 0.4401525     58.44         45    2.26    100.05    0.4401525    92.4          40     15.7  89.235 0.4401525          0         0             1        1        0
5061     AR   10.2    1000    1         Ground-Based Mech WT      475.8030493           0  0.26    101.646 0.3331906     38.51         45    2.18    101.65    0.3331906    75.5          40       15  86.994 0.3331906          0         0             1        1        0
5063     AR   13.1    1000    1         Ground-Based Mech WT      388.4664054           0    0.3   96.5813 0.8299659     46.74         45    2.11    96.581    0.8299659    83.3          40     14.4  92.518 0.8299659          0         0             1        1        0
5065     AR   12.2    1000    1         Ground-Based Mech WT       591.953747           0  0.32    96.7292 0.6899606     55.07         45    2.25    96.729    0.6899606    95.5          40     12.1  92.065 0.6899606          0         0             1        1        0
5067     AR   3.23    1000    1         Ground-Based Mech WT      224.9987069           0  0.37    89.3619 0.8336022     46.84         45     2.4    89.362    0.8336022    76.8          40     17.3  90.192 0.8336022          0         0             1        1        0
5069     AR   3.31    1000    1         Ground-Based Mech WT      416.0233632           0  0.31    101.995 0.7254856     58.42         45    2.25    101.99    0.7254856    76.5          40     18.7  92.826 0.7254856          0         0             1        1        0
5071     AR   19.8    1000    1         Ground-Based Mech WT      444.6161545           0  0.37    91.0828 0.7462174     54.31         45    2.47    91.083    0.7462174     101          40     15.7  91.927 0.7462174          0         0             1        1        0
5073     AR   1.98    1000    1         Ground-Based Mech WT       453.675644           0  0.23    100.995 0.5125762     48.35         45    2.13    100.99    0.5125762    72.1          40     21.1  89.886 0.5125762          0         0             1        1        0
5075     AR   6.76    1000    1         Ground-Based Mech WT      587.9264465           0  0.25    93.7696 0.9583254     55.03         45    2.19     93.77    0.9583254    85.7          40     18.2  98.838 0.9583254          0         0             1        1        0
5077     AR    5.2    1000    1         Ground-Based Mech WT      346.3629076           0  0.36    93.4662 0.9633185      38.1         45    2.38    93.466    0.9633185    80.6          40     26.3  94.002 0.9633185          0         0             1        1        0
5079     AR   2.68    1000    1         Ground-Based Mech WT      366.1945519           0  0.26    103.932 0.5973561     54.15         45     2.1    103.93    0.5973561    72.4          40     16.6  91.279 0.5973561          0         0             1        1        0
5081     AR    1.1    1000    1         Ground-Based Mech WT      474.9223837           0  0.27    103.518 0.4353531     39.94         45    2.14    103.52    0.4353531    73.8          40     17.2  89.567 0.4353531          0         0             1        1        0
5083     AR   12.3    1000    1         Ground-Based Mech WT       412.336543           0  0.33    97.5852 0.4506762     55.67         45    2.16    97.585    0.4506762    94.2          40     12.9    90.57 0.4506762         0         0             1        1        0
5085     AR   2.07    1000    1         Ground-Based Mech WT       258.987486           0  0.37    99.6129 0.7839534     49.04         45    2.23    99.613    0.7839534    82.7          40     15.5  92.905 0.7839534          0         0             1        1        0
5087     AR   20.1    1000    1         Ground-Based Mech WT      467.2967538           0  0.31    94.6138 0.9350599     51.99         45    2.38    94.614    0.9350599    94.2          40     14.5  93.901 0.9350599          0         0             1        1        0
5089     AR   18.2    1000    1         Ground-Based Mech WT      454.3758978           0  0.29    101.504    0.845148   52.84         45    2.13     101.5     0.845148    74.2          40     12.6  99.731    0.845148        0         0             1        1        0
5091     AR   3.71    1000    1         Ground-Based Mech WT      552.3648637           0  0.27    99.8537 0.7087937     39.02         45    2.23    99.854    0.7087937    66.3          40     15.8  90.001 0.7087937          0         0             1        1        0
5093     AR    1.5    1000    1         Ground-Based Mech WT      63.61306692           0  0.22      96.043 0.5650284       21         45    2.28    96.043    0.5650284    75.2          40     36.1  92.047 0.5650284          0         0             1        1        0
5095     AR   1.19    1000    1         Ground-Based Mech WT      250.9214049           0  0.38    90.9601    0.897318   37.72         45     2.4     90.96     0.897318    87.6          40     26.5  93.306    0.897318        0         0             1        1        0
5097     AR   20.9    1000    1         Ground-Based Mech WT      425.7497642           0    0.3   91.5909 0.4126003     56.81         45    2.22    91.591    0.4126003    94.6          40     16.5  89.169 0.4126003          0         0             1        1        0
5099     AR   4.28    1000    1         Ground-Based Mech WT      615.9991997           0  0.26    102.364 0.4257953     44.81         45    2.13    102.36    0.4257953    63.4          40     21.7  89.891 0.4257953          0         0             1        1        0
5101     AR   25.9    1000    1         Ground-Based Mech WT      473.5934108           0  0.34    93.0239 0.8917762     51.12         45    2.46    93.024    0.8917762    95.1          40     15.5  95.327 0.8917762          0         0             1        1        0
5103     AR   5.02    1000    1         Ground-Based Mech WT      530.2887475           0  0.29    97.4944 0.4992757     45.62         45    2.52    97.494    0.4992757    79.9          40     22.1  89.951 0.4992757          0         0             1        1        0
5105     AR   14.1    1000    1         Ground-Based Mech WT      493.2278276           0  0.28    93.4439 0.3279548     62.64         45    2.27    93.444    0.3279548      91          40     12.7  90.332 0.3279548          0         0             1        1        0
5107     AR   4.89    1000    1         Ground-Based Mech WT      267.3175739           0  0.27    89.4291 0.9756945     50.06         45    2.48    89.429    0.9756945    91.7          40     26.5  94.818 0.9756945          0         0             1        1        0
5109     AR   12.2    1000    1         Ground-Based Mech WT      524.4068924           0  0.25    99.0733 0.3096163     46.48         45     2.3    99.073    0.3096163    88.8          40       13  88.508 0.3096163          0         0             1        1        0
5111     AR   5.92    1000    1         Ground-Based Mech WT      399.8131039           0  0.35    93.9185 0.9713053     37.59         45    2.25    93.918    0.9713053    66.8          40     31.3  91.751 0.9713053          0         0             1        1        0
5113     AR   19.2    1000    1         Ground-Based Mech WT      516.8003032           0  0.27    93.5225 0.4530359     45.96         45    2.37    93.523    0.4530359      90          40     13.6  87.987 0.4530359          0         0             1        1        0
5115     AR   19.4    1000    1         Ground-Based Mech WT      413.1502216           0  0.31    91.1712    0.695388   50.44         45     2.5    91.171     0.695388    86.5          40     17.7  92.484    0.695388        0         0             1        1        0
5117     AR   2.42    1000    1         Ground-Based Mech WT      225.1194646           0  0.32    94.2992 0.9427908     34.79         45    2.11    94.299    0.9427908    86.8          40     29.3  98.104 0.9427908          0         0             1        1        0
5119     AR   7.71    1000    1         Ground-Based Mech WT      392.9064426           0  0.31    96.0492     0.65076    42.8         45    2.28    96.049       0.65076   92.6          40     16.5  90.249     0.65076        0         0             1        1        0
5121     AR   8.93    1000    1         Ground-Based Mech WT      570.7898464           0  0.27    97.7585 0.9452816     45.93         45    2.17    97.759    0.9452816    68.7          40     15.6    97.07 0.9452816         0         0             1        1        0
5123     AR   4.08    1000    1         Ground-Based Mech WT      502.4939451           0  0.31      91.185          1   54.51         45    2.68    91.185             1   92.2          40     23.4  92.649           1        0         0             1        1        0
5125     AR   11.1    1000    1         Ground-Based Mech WT      558.0384081           0  0.29    97.0646 0.5503758      62.3         45    2.42    97.065    0.5503758      90          40     13.4  91.106 0.5503758          0         0             1        1        0
5127     AR   14.6    1000    1         Ground-Based Mech WT      382.8404439           0  0.32    93.1235 0.3194674     52.31         45    2.22    93.123    0.3194674     100          40       15  88.169 0.3194674          0         0             1        1        0
5129     AR   22.4    1000    1         Ground-Based Mech WT      522.6492295           0    0.3   93.7954 0.9007031     57.04         45    2.35    93.795    0.9007031    90.9          40       13  92.695 0.9007031          0         0             1        1        0
5131     AR   5.86    1000    1         Ground-Based Mech WT      336.6074015           0  0.23    100.844 0.6661352     61.66         45    1.82    100.84    0.6661352    66.1          40     11.7  90.388 0.6661352          0         0             1        1        0
5133     AR   9.06    1000    1         Ground-Based Mech WT      469.0866528           0  0.29    98.0785 0.6217235     56.17         45     2.4    98.079    0.6217235    89.3          40     16.3  90.338 0.6217235          0         0             1        1        0
5135     AR   11.8    1000    1         Ground-Based Mech WT      488.3885571           0  0.29    100.339 0.8636611     54.94         45    2.15    100.34    0.8636611    74.9          40     12.5  94.601 0.8636611          0         0             1        1        0
5137     AR   19.9    1000    1         Ground-Based Mech WT      424.0059243           0  0.35    92.2699 0.8164158     57.27         45    2.41     92.27    0.8164158     106          40     13.9  90.804 0.8164158          0         0             1        1        0
5139     AR   3.66    1000    1         Ground-Based Mech WT      611.6911627           0  0.25    101.879 0.3988275     45.86         45    2.34    101.88    0.3988275    75.5          40     22.4  91.258 0.3988275          0         0             1        1        0
5141     AR   14.5    1000    1         Ground-Based Mech WT      462.3343083           0  0.29    91.9273 0.7314366     61.41         45    2.33    91.927    0.7314366     100          40     11.9  89.604 0.7314366          0         0             1        1        0
5143     AR   15.8    1000    1         Ground-Based Mech WT      296.1774407           0    0.3   94.0742    0.901827   54.56         45     2.3    94.074     0.901827      97          40     12.7  92.879    0.901827        0         0             1        1        0
5145     AR   5.97    1000    1         Ground-Based Mech WT      313.0831487           0  0.31    95.3297 0.7639666     43.42         45    2.33     95.33    0.7639666    90.9          40     19.4  93.429 0.7639666          0         0             1        1        0
5147     AR   1.25    1000    1         Ground-Based Mech WT      238.5279174           0  0.38      99.077 0.8573611     65.8         45     2.3    99.077    0.8573611    97.9          40     15.5  102.88 0.8573611          0         0             1        1        0
5149     AR   11.5    1000    1         Ground-Based Mech WT      430.6059552           0  0.36    95.0736 0.4667507     52.55         45    2.32    95.074    0.4667507    83.9          40     17.4  89.381 0.4667507          0         0             1        1        0
 ####    FL   0.81    1000    1         Ground-Based Mech WT      326.0838637           0  0.47    101.352    0.471511   51.56         45    2.67    101.35     0.471511    59.3          40       17  96.378    0.471511        0         0             1        1        0
 ####    FL   0.55    1000    1         Ground-Based Mech WT      456.3556876           0  0.52    100.481    0.095892   56.98         45    2.48    100.48     0.095892    57.5          40     14.2  91.689    0.095892        0         0             1        1        0
 ####    FL   0.26    1000    1         Ground-Based Mech WT      359.8865391           0  0.55      105.71 0.1035659    96.52         45     2.2    105.71    0.1035659    44.2          40     8.87  92.432 0.1035659          0         0             1        1        0
 ####    FL   0.78    1000    1         Ground-Based Mech WT      365.3544268           0  0.49    100.442 0.4106164     77.27         45    2.74    100.44    0.4106164      72          40     15.6  92.241 0.4106164          0         0             1        1        0
 ####    FL   0.07    1000    1         Ground-Based Mech WT      282.5342838           0  0.43    91.7395 0.6704819     33.71         45    2.22    91.739    0.6704819    66.7          40     12.4  91.617 0.6704819          0         0             1        1        0
 ####    FL   0.78    1000    1         Ground-Based Mech WT      342.3552322           0  0.47    99.2351     0.39417   66.44         45     2.6    99.235       0.39417   74.6          40     15.5  92.835     0.39417        0         0             1        1        0
 ####    FL   0.18    1000    1         Ground-Based Mech WT      72.54332668           0  0.29    101.931 0.2888595     18.76         45    2.13    101.93    0.2888595    48.1          40     9.95  93.134 0.2888595          0         0             1        1        0
 ####    FL   0.85    1000    1         Ground-Based Mech WT      347.4777367           0  0.37    102.615 0.4857095     41.23         45    2.25    102.61    0.4857095    65.7          40     13.6  98.179 0.4857095          0         0             1        1        0
 ####    FL   1.04    1000    1         Ground-Based Mech WT      328.5147651           0  0.47    98.4148 0.3331052     58.59         45    2.67    98.415    0.3331052    81.3          40     14.3  95.118 0.3331052          0         0             1        1        0
 ####    FL   0.06    1000    1         Ground-Based Mech WT       264.745826           0  0.42    94.1148 0.3517411     48.04         45    2.34    94.115    0.3517411     142          40     8.73    92.59 0.3517411         0         0             1        1        0
 ####    FL      1    1000    1         Ground-Based Mech WT      465.0202465           0  0.43    98.6707 0.4386258     64.74         45    2.53    98.671    0.4386258    66.7          40     13.4  92.353 0.4386258          0         0             1        1        0
 ####    FL   0.33    1000    1         Ground-Based Mech WT      2423.556131           0  0.22    118.199           1   74.77         45    1.74     118.2             1   20.6          40     6.23  89.077           1        0         0             1        1        0
 ####    FL    0.4    1000    1         Ground-Based Mech WT      108.3448551           0  0.66    86.6508 0.7919297      26.1         45    2.75    86.651    0.7919297     119          40     11.5  96.571 0.7919297          0         0             1        1        0
 ####    FL   0.13    1000    1         Ground-Based Mech WT      438.5555515           0  0.35    97.8337 0.5670988     50.14         45    2.43    97.834    0.5670988    76.5          40     14.5  91.999 0.5670988          0         0             1        1        0
 ####    FL   0.26    1000    1         Ground-Based Mech WT       430.479717           0  0.36    97.5576 0.4202881     45.39         45    2.79    97.558    0.4202881    93.6          40     16.2  90.771 0.4202881          0         0             1        1        0
 ####    FL   3.84    1000    1         Ground-Based Mech WT       338.060898           0  0.38    98.8582 0.4698568     48.39         45    2.52    98.858    0.4698568    74.8          40     15.8  100.85 0.4698568          0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      248.3444694           0  0.49    102.512 0.3431051     63.34         45    2.51    102.51    0.3431051    74.6          40     10.3  92.321 0.3431051          0         0             1        1        0
 ####    FL   0.14    1000    1         Ground-Based Mech WT      258.0657286           0  0.51    96.2819    0.359422   63.48         45    2.53    96.282     0.359422    90.6          40     13.1  90.267    0.359422        0         0             1        1        0
 ####    FL   3.61    1000    1         Ground-Based Mech WT      381.7060697           0  0.42      98.605   0.488538   67.49         45     2.6    98.605     0.488538    79.5          40     16.2  89.397    0.488538        0         0             1        1        0
 ####    FL   1.23    1000    1         Ground-Based Mech WT       397.143446           0  0.47    101.783 0.2705827     93.77         45    2.93    101.78    0.2705827    93.8          40     11.5  92.924 0.2705827          0         0             1        1        0
 ####    FL   0.23    1000    1         Ground-Based Mech WT      241.4932446           0  0.39    97.2625    0.722373   31.32         45    1.93    97.262     0.722373    29.7          40     6.26    95.58   0.722373        0         0             1        1        0
 ####    FL   0.04    1000    1         Ground-Based Mech WT      389.6385724           0  0.46    102.391 0.3924939     101.7         45     2.5    102.39    0.3924939    92.2          40     11.7  94.937 0.3924939          0         0             1        1        0
 ####    FL    1.6    1000    1         Ground-Based Mech WT      284.7399793           0  0.45    101.728 0.5201226     65.28         45    2.54    101.73    0.5201226    75.3          40     13.6  93.582 0.5201226          0         0             1        1        0
 ####    FL      1    1000    1         Ground-Based Mech WT      199.2255906           0    0.5   96.7465 0.7077629     26.64         45     2.4    96.746    0.7077629    84.9          40     17.5  98.156 0.7077629          0         0             1        1        0
 ####    FL   0.21    1000    1         Ground-Based Mech WT      208.1608949           0  0.39    89.6866 0.2901177     56.34         45    2.68    89.687    0.2901177     135          40       11  95.693 0.2901177          0         0             1        1        0
 ####    FL   1.19    1000    1         Ground-Based Mech WT      261.3654744           0  0.46    99.2826    0.596376   37.46         45    2.58    99.283     0.596376      87          40     16.8  92.709    0.596376        0         0             1        1        0
 ####    FL   0.78    1000    1         Ground-Based Mech WT      215.5049951           0  0.39      101.39 0.5120347    34.04         45    2.03    101.39    0.5120347    67.1          40     15.9  98.419 0.5120347          0         0             1        1        0
 ####    FL   0.28    1000    1         Ground-Based Mech WT      193.3290809           0  0.46    89.6982 0.7050342     32.62         45    2.93    89.698    0.7050342     100          40     14.8  96.751 0.7050342          0         0             1        1        0
 ####    FL   0.85    1000    1         Ground-Based Mech WT      536.5290984           0  0.42    95.3285 0.5624813     71.81         45    2.59    95.328    0.5624813    96.3          40     12.4  93.094 0.5624813          0         0             1        1        0
 ####    FL   0.38    1000    1         Ground-Based Mech WT       45.3576182           0  0.26    97.7993 0.5392009      9.71         45     2.1    97.799    0.5392009    37.7          40     10.6  91.231 0.5392009          0         0             1        1        0
 ####    FL   0.94    1000    1         Ground-Based Mech WT       426.115409           0  0.42    98.4856 0.4459864     72.73         45    2.79    98.486    0.4459864    91.9          40     13.1    91.41 0.4459864         0         0             1        1        0
 ####    FL   1.09    1000    1         Ground-Based Mech WT      352.8182045           0  0.47    100.032 0.5231651     70.29         45    2.62    100.03    0.5231651    83.4          40     17.8    92.52 0.5231651         0         0             1        1        0
 ####    FL   1.06    1000    1         Ground-Based Mech WT      338.4878356           0  0.54    100.379 0.5826956     77.88         45    2.42    100.38    0.5826956    70.5          40     13.7  91.943 0.5826956          0         0             1        1        0
 ####    FL   0.49    1000    1         Ground-Based Mech WT       284.778738           0  0.48    88.9943 0.6076545     51.73         45    2.57    88.994    0.6076545     101          40     15.3  88.915 0.6076545          0         0             1        1        0
 ####    FL   0.07    1000    1         Ground-Based Mech WT      525.4380024           0    0.3   104.202 0.3187867      46.8         45    2.33     104.2    0.3187867    77.6          40     7.39  92.259 0.3187867          0         0             1        1        0
 ####    FL   1.65    1000    1         Ground-Based Mech WT      222.0146843           0  0.57    95.3571 0.3426394     48.58         45    2.87    95.357    0.3426394    64.6          40     19.3  90.524 0.3426394          0         0             1        1        0
 ####    FL   0.26    1000    1         Ground-Based Mech WT      308.5211452           0    0.4   101.436 0.4748218     54.53         45    2.55    101.44    0.4748218    84.4          40     15.5  92.561 0.4748218          0         0             1        1        0
 ####    FL    0.7    1000    1         Ground-Based Mech WT      322.9312508           0  0.49    93.2317 0.4059569     68.11         45    2.62    93.232    0.4059569    71.3          40     17.4  93.858 0.4059569          0         0             1        1        0
 ####    FL   1.03    1000    1         Ground-Based Mech WT      320.6100384           0  0.47    97.9571 0.4514762     86.61         45    2.72    97.957    0.4514762    96.7          40     12.6  92.479 0.4514762          0         0             1        1        0
 ####    FL   0.44    1000    1         Ground-Based Mech WT      296.0386912           0  0.51    100.809 0.8287741     38.69         45    2.11    100.81    0.8287741    70.3          40     14.4  98.432 0.8287741          0         0             1        1        0
 ####    FL   0.83    1000    1         Ground-Based Mech WT      326.7141862           0  0.43    90.3314 0.4210187     42.77         45       3    90.331    0.4210187    60.6          40     16.9  87.896 0.4210187          0         0             1        1        0
 ####    FL   0.77    1000    1         Ground-Based Mech WT      184.5206032           0  0.32      106.89   0.401729   25.77         45    1.83    106.89     0.401729    93.4          40       10  92.636    0.401729        0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      1644.066573           0    0.1   142.063 0.3187889     74.55         45    0.88    142.06    0.3187889    14.9          40      2.9  104.24 0.3187889          0         0             1        1        0
 ####    FL   0.41    1000    1         Ground-Based Mech WT      441.7618698           0  0.49    98.9544 0.4787563     86.65         45    2.58    98.954    0.4787563    93.6          40     15.8  90.467 0.4787563          0         0             1        1        0
 ####    FL   3.91    1000    1         Ground-Based Mech WT      362.4478727           0  0.35    95.6518 0.3599029     46.63         45    2.32    95.652    0.3599029    64.7          40     15.2  91.578 0.3599029          0         0             1        1        0
 ####    FL   0.42    1000    1         Ground-Based Mech WT      21.98968816           0  0.18    94.2808 0.6825569     27.07         45    2.35    94.281    0.6825569     151          40     17.2  93.599 0.6825569          0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      225.9538787           0  0.34    98.3637 0.5291201     33.32         45    2.09    98.364    0.5291201    72.2          40     10.6  92.876 0.5291201          0         0             1        1        0
 ####    FL   0.11    1000    1         Ground-Based Mech WT      267.5219654           0  0.53    87.4385 0.2294728     64.84         45     2.9    87.439    0.2294728    91.9          40     16.5  92.976 0.2294728          0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      222.4572548           0  0.46    84.3644 0.0310191     46.51         45    2.48    84.364    0.0310191    50.4          40     10.6  89.425 0.0310191          0         0             1        1        0
 ####    FL   1.97    1000    1         Ground-Based Mech WT      227.7973522           0  0.64    100.274    0.444443   71.24         45    2.48    100.27     0.444443    93.9          40     14.7  95.543    0.444443        0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      137.5860542           0  0.35    89.9639 0.1910859     37.77         45    2.74    89.964    0.1910859     155          40     26.1  96.642 0.1910859          0         0             1        1        0
 ####    FL   0.49    1000    1         Ground-Based Mech WT      255.1549296           0  0.43    94.1153 0.3956581     39.61         45    2.38    94.115    0.3956581    54.2          40     13.9  90.699 0.3956581          0         0             1        1        0
 ####    FL   1.07    1000    1         Ground-Based Mech WT         332.83173          0  0.44    98.7223 0.3316212     51.83         45    2.72    98.722    0.3316212    72.6          40     12.2  89.443 0.3316212          0         0             1        1        0
 ####    FL    0.7    1000    1         Ground-Based Mech WT      408.1170861           0  0.39      101.54 0.3929698    75.76         45    2.53    101.54    0.3929698    67.6          40     11.7  93.248 0.3929698          0         0             1        1        0
 ####    FL    0.5    1000    1         Ground-Based Mech WT      121.7974478           0  0.78    108.525 0.3741766     10.25         45    2.27    108.52    0.3741766    73.7          40     16.9  92.474 0.3741766          0         0             1        1        0
 ####    FL   2.26    1000    1         Ground-Based Mech WT      449.2578527           0  0.33    98.6571 0.3455753     62.76         45    2.51    98.657    0.3455753    74.4          40     14.7     91.9 0.3455753         0         0             1        1        0
 ####    FL   0.17    1000    1         Ground-Based Mech WT      51.14133293           0  0.35    102.297 0.4010984     22.23         45    2.62     102.3    0.4010984     107          40     8.52  91.644 0.4010984          0         0             1        1        0
 ####    FL    0.7    1000    1         Ground-Based Mech WT      75.68879034           0  0.48    96.7677 0.7601635     19.74         45    2.13    96.768    0.7601635     132          40     11.3  90.977 0.7601635          0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT         231.70421          0  0.45    93.9006 0.4431237      39.2         45    2.67    93.901    0.4431237    94.7          40     17.4  97.574 0.4431237          0         0             1        1        0
 ####    FL   2.57    1000    1         Ground-Based Mech WT      309.6204487           0  0.47    105.009 0.6443611     70.14         45    2.48    105.01    0.6443611    73.7          40     15.4  101.87 0.6443611          0         0             1        1        0
 ####    FL   0.78    1000    1         Ground-Based Mech WT      423.7277095           0  0.46    102.567 0.4451106     79.89         45    2.26    102.57    0.4451106    50.4          40     10.3  93.337 0.4451106          0         0             1        1        0
 ####    FL      0    1000    1         Ground-Based Mech WT      333.9865234           0  0.61      101.03 0.4616574    82.19         45    2.76    101.03    0.4616574    93.8          40     13.2  88.769 0.4616574          0         0             1        1        0
 ####    FL    0.2    1000    1         Ground-Based Mech WT      260.7030859           0  0.39    94.5996 0.4942804     42.85         45    2.59      94.6    0.4942804    89.2          40     14.3  91.024 0.4942804          0         0             1        1        0
 ####    FL    0.4    1000    1         Ground-Based Mech WT      301.6938731           0  0.55    96.5763 0.3870572      49.6         45    2.56    96.576    0.3870572    78.2          40       17  91.253 0.3870572          0         0             1        1        0
 ####    FL   2.25    1000    1         Ground-Based Mech WT      395.2006586           0    0.4   99.2997 0.3506185     59.88         45    2.27      99.3    0.3506185    63.7          40     14.6  89.561 0.3506185          0         0             1        1        0
 ####    FL   2.08    1000    1         Ground-Based Mech WT      374.5272845           0  0.48    93.4316 0.4623556     73.51         45    2.37    93.432    0.4623556    71.9          40     12.6  90.643 0.4623556          0         0             1        1        0
 ####    GA   1.38    1000    1         Ground-Based Mech WT      418.7172255           0  0.36    100.787 0.4409559     73.72         45    2.39    100.79    0.4409559    89.2          40     14.1  90.504 0.4409559          0         0             1        1        0
 ####    GA    1.1    1000    1         Ground-Based Mech WT      429.3907284           0    0.4   103.218 0.2732488     76.62         45    2.39    103.22    0.2732488      51          40     11.7  90.246 0.2732488          0         0             1        1        0
 ####    GA   1.41    1000    1         Ground-Based Mech WT      424.4728615           0    0.5   96.8064 0.2311317     85.29         45    2.72    96.806    0.2311317    84.8          40     12.2    90.18 0.2311317         0         0             1        1        0
 ####    GA   1.58    1000    1         Ground-Based Mech WT      193.9008911           0  0.34    100.835 0.6659455     35.84         45    2.29    100.84    0.6659455    59.2          40     23.2  100.69 0.6659455          0         0             1        1        0
 ####    GA   9.57    1000    1         Ground-Based Mech WT      578.6718114           0  0.28    100.735 0.4795899     79.75         45    2.56    100.73    0.4795899    82.4          40     17.5  90.261 0.4795899          0         0             1        1        0
 ####    GA   17.9    1000    1         Ground-Based Mech WT      476.2303468           0  0.33    91.9778 0.8437861     48.74         45     2.8    91.978    0.8437861    77.2          40       21  90.115 0.8437861          0         0             1        1        0
 ####    GA   9.25    1000    1         Ground-Based Mech WT      328.1423177           0  0.34    98.7843 0.5954805        29         45     2.7    98.784    0.5954805    93.8          40     24.9  88.463 0.5954805          0         0             1        1        0
 ####    GA     15    1000    1         Ground-Based Mech WT      790.8049118           0  0.28    101.728 0.4830195        74         45    2.33    101.73    0.4830195    87.1          40     14.2  88.159 0.4830195          0         0             1        1        0
 ####    GA   2.17    1000    1         Ground-Based Mech WT      519.9012705           0    0.5   102.023 0.3716185     145.3         45    2.33    102.02    0.3716185    91.5          40     11.6    90.54 0.3716185         0         0             1        1        0
 ####    GA    1.3    1000    1         Ground-Based Mech WT      739.7088517           0  0.38    96.7551 0.1311595     79.92         45    2.78    96.755    0.1311595    94.3          40     11.5  90.334 0.1311595          0         0             1        1        0
 ####    GA   5.26    1000    1         Ground-Based Mech WT      590.5908491           0    0.3   95.2905 0.6882003     52.17         45    2.85    95.291    0.6882003    79.9          40     18.5  92.249 0.6882003          0         0             1        1        0
 ####    GA      5    1000    1         Ground-Based Mech WT      521.7678978           0    0.3   101.682 0.5765115     76.83         45    2.54    101.68    0.5765115    86.6          40     18.8  92.938 0.5765115          0         0             1        1        0
 ####    GA   0.73    1000    1         Ground-Based Mech WT      449.8442183           0  0.51    100.547 0.4036684     85.74         45    2.58    100.55    0.4036684    65.2          40     11.2  91.143 0.4036684          0         0             1        1        0
 ####    GA   2.43    1000    1         Ground-Based Mech WT      444.3415556           0  0.39    100.976 0.4144284     72.31         45    2.49    100.98    0.4144284    72.8          40     16.2  93.512 0.4144284          0         0             1        1        0
 ####    GA   0.78    1000    1         Ground-Based Mech WT      396.8090136           0  0.37    101.854 0.3784208     75.23         45    2.59    101.85    0.3784208    92.9          40     18.7  90.047 0.3784208          0         0             1        1        0
 ####    GA   1.75    1000    1         Ground-Based Mech WT      474.5836777           0  0.27    99.2099 0.3952892     69.43         45     2.7     99.21    0.3952892    93.9          40     12.9  89.269 0.3952892          0         0             1        1        0
 ####    GA   3.05    1000    1         Ground-Based Mech WT      396.3434851           0  0.31    102.243 0.5422859     84.03         45     2.6    102.24    0.5422859     103          40     15.5  91.118 0.5422859          0         0             1        1        0
 ####    GA   8.78    1000    1         Ground-Based Mech WT      652.7292827           0  0.31    100.698 0.5471185      65.3         45    2.72     100.7    0.5471185    73.3          40     19.4  97.149 0.5471185          0         0             1        1        0
 ####    GA   3.17    1000    1         Ground-Based Mech WT      524.9404865           0  0.34    94.9692 0.4086443     45.29         45    2.85    94.969    0.4086443    76.5          40     15.3  92.687 0.4086443          0         0             1        1        0
 ####    GA   1.02    1000    1         Ground-Based Mech WT      506.3000989           0  0.34    97.3573 0.4581301     89.72         45    2.69    97.357    0.4581301     101          40     13.1    92.27 0.4581301         0         0             1        1        0
 ####    GA   4.04    1000    1         Ground-Based Mech WT      701.9539016           0  0.35    100.967 0.5036559     63.01         45    2.58    100.97    0.5036559    83.7          40     11.8  89.946 0.5036559          0         0             1        1        0
 ####    GA   10.1    1000    1         Ground-Based Mech WT      697.1507123           0  0.28    100.896 0.5708946      72.3         45    2.56     100.9    0.5708946     103          40     18.7  90.091 0.5708946          0         0             1        1        0
 ####    GA   11.3    1000    1         Ground-Based Mech WT      299.4167655           0  0.39      94.703 0.7606129     48.1         45    2.75    94.703    0.7606129    91.7          40     22.9  87.384 0.7606129          0         0             1        1        0
 ####    GA   0.52    1000    1         Ground-Based Mech WT      440.3595622           0  0.47    101.266 0.1882161     89.69         45    2.38    101.27    0.1882161      70          40     13.1  96.264 0.1882161          0         0             1        1        0
 ####    GA   0.96    1000    1         Ground-Based Mech WT      553.6805722           0  0.38    97.5163 0.5336919     54.06         45    2.81    97.516    0.5336919     114          40     19.8  91.072 0.5336919          0         0             1        1        0
 ####    GA   10.9    1000    1         Ground-Based Mech WT      361.3771089           0  0.35      102.38 0.5272561    50.98         45    2.48    102.38    0.5272561    71.1          40     18.2  89.726 0.5272561          0         0             1        1        0
 ####    GA   18.1    1000    1         Ground-Based Mech WT      689.7224677           0    0.3     97.383 0.7346842       74         45    2.43    97.383    0.7346842    84.4          40     15.2  87.741 0.7346842          0         0             1        1        0
 ####    GA   15.8    1000    1         Ground-Based Mech WT      443.5715796           0  0.31    96.6599 0.7187602     51.43         45    2.66     96.66    0.7187602     101          40     21.7  88.391 0.7187602          0         0             1        1        0
 ####    GA   9.43    1000    1         Ground-Based Mech WT      627.3198101           0  0.26    96.8011 0.5624147     58.83         45    2.59    96.801    0.5624147    80.3          40     15.6  87.362 0.5624147          0         0             1        1        0
 ####    GA   8.91    1000    1         Ground-Based Mech WT      513.9923364           0  0.27    102.862 0.6269981     53.88         45    2.48    102.86    0.6269981    76.7          40     17.1  97.853 0.6269981          0         0             1        1        0
 ####    GA   7.86    1000    1         Ground-Based Mech WT       508.977029           0  0.32    92.6983 0.6873931     40.69         45    2.63    92.698    0.6873931    99.8          40     18.6    88.68 0.6873931         0         0             1        1        0
 ####    GA   0.39    1000    1         Ground-Based Mech WT      479.6324555           0  0.49      100.02 0.2396006    103.7         45    2.63    100.02    0.2396006    71.3          40     10.4  91.048 0.2396006          0         0             1        1        0
 ####    GA   18.3    1000    1         Ground-Based Mech WT      583.2157054           0  0.38    95.4299 0.4402467      42.8         45       3     95.43    0.4402467     119          40     31.4  87.421 0.4402467          0         0             1        1        0
 ####    GA    1.5    1000    1         Ground-Based Mech WT      502.2806731           0  0.38    99.2498 0.2749818     63.47         45    2.68     99.25    0.2749818    94.4          40     11.7  92.672 0.2749818          0         0             1        1        0
 ####    GA   3.15    1000    1         Ground-Based Mech WT      290.3395185           0  0.35    99.1846 0.3473847      46.8         45    2.27    99.185    0.3473847    84.6          40     16.5  93.316 0.3473847          0         0             1        1        0
 ####    GA   6.17    1000    1         Ground-Based Mech WT       432.109708           0  0.37    100.558 0.3075259      56.7         45    2.56    100.56    0.3075259    93.1          40     24.8  86.802 0.3075259          0         0             1        1        0
 ####    GA   1.04    1000    1         Ground-Based Mech WT      727.6295452           0  0.33       94.33 0.6472557    73.72         45    2.55     94.33    0.6472557     106          40     14.5  92.142 0.6472557          0         0             1        1        0
 ####    GA    7.8    1000    1         Ground-Based Mech WT      651.8174093           0  0.31    98.8551 0.5131621     78.18         45    2.78    98.855    0.5131621     106          40     17.5  88.215 0.5131621          0         0             1        1        0
 ####    GA   8.03    1000    1         Ground-Based Mech WT      503.7161427           0  0.29    101.409 0.3958436     60.56         45    2.49    101.41    0.3958436    65.6          40     12.3    89.46 0.3958436         0         0             1        1        0
 ####    GA      3    1000    1         Ground-Based Mech WT      618.9898159           0  0.31    100.959 0.7238157     78.58         45    2.56    100.96    0.7238157    81.5          40     17.2  92.599 0.7238157          0         0             1        1        0
 ####    GA   33.4    1000    1         Ground-Based Mech WT      279.4327584           0    0.5   95.2044 0.7733921     57.27         45    2.73    95.204    0.7733921     120          40     17.2  86.101 0.7733921          0         0             1        1        0
 ####    GA   21.9    1000    1         Ground-Based Mech WT      524.6456044           0  0.43    93.4903    0.604969   64.51         45    2.95     93.49     0.604969     105          40     19.3  87.108    0.604969        0         0             1        1        0
 ####    GA   3.32    1000    1         Ground-Based Mech WT      367.6345655           0  0.32    100.731    0.403929   39.42         45    2.51    100.73     0.403929    69.1          40     17.9  93.494    0.403929        0         0             1        1        0
 ####    GA   9.75    1000    1         Ground-Based Mech WT      354.6864559           0  0.37    99.7684    0.517195   53.41         45    2.83    99.768     0.517195     103          40     23.7  85.758    0.517195        0         0             1        1        0
 ####    GA   2.76    1000    1         Ground-Based Mech WT      483.0371172           0  0.37    102.593 0.3218157     80.35         45     2.6    102.59    0.3218157    95.6          40     14.9  91.677 0.3218157          0         0             1        1        0
 ####    GA   2.58    1000    1         Ground-Based Mech WT       392.527903           0  0.35    100.502 0.2898253     59.13         45    2.64     100.5    0.2898253    62.5          40     16.7  92.841 0.2898253          0         0             1        1        0
 ####    GA   2.15    1000    1         Ground-Based Mech WT      296.9656676           0  0.22    94.9462 0.5187858     38.58         45    2.74    94.946    0.5187858    67.9          40     23.5  91.284 0.5187858          0         0             1        1        0
 ####    GA   12.5    1000    1         Ground-Based Mech WT      201.7037913           0    0.4   97.8995 0.7943807     39.82         45    2.61    97.899    0.7943807     109          40     21.8  88.992 0.7943807          0         0             1        1        0
 ####    GA   2.47    1000    1         Ground-Based Mech WT      254.3434451           0  0.28    104.203 0.4155341      54.2         45    2.29     104.2    0.4155341    74.7          40     16.2  91.487 0.4155341          0         0             1        1        0
 ####    GA   0.47    1000    1         Ground-Based Mech WT      728.8650731           0  0.36    103.689 0.1894233      97.8         45    2.35    103.69    0.1894233    54.5          40     12.6  90.788 0.1894233          0         0             1        1        0
 ####    GA   1.33    1000    1         Ground-Based Mech WT      537.9571123           0  0.37    101.315 0.4539188     83.69         45    2.56    101.31    0.4539188    94.8          40     14.9  89.723 0.4539188          0         0             1        1        0
 ####    GA   12.1    1000    1         Ground-Based Mech WT      555.0277234           0  0.37    98.2902 0.7184743     80.87         45    2.47     98.29    0.7184743    88.2          40       20  92.563 0.7184743          0         0             1        1        0
 ####    GA   2.48    1000    1         Ground-Based Mech WT      539.6242377           0    0.3   102.689    0.318102   71.12         45    2.53    102.69     0.318102    98.7          40     12.9  89.694    0.318102        0         0             1        1        0
 ####    GA   2.15    1000    1         Ground-Based Mech WT      456.2846774           0  0.29    96.1991 0.6710186     51.72         45    2.66    96.199    0.6710186     114          40     17.4  91.039 0.6710186          0         0             1        1        0
 ####    GA   27.8    1000    1         Ground-Based Mech WT      525.6662703           0  0.38    93.2847 0.8200652     61.53         45    2.86    93.285    0.8200652     106          40     17.8  89.513 0.8200652          0         0             1        1        0
 ####    GA   11.1    1000    1         Ground-Based Mech WT      634.5568573           0  0.28    103.781 0.5302049      95.4         45    2.43    103.78    0.5302049     109          40     17.7  87.709 0.5302049          0         0             1        1        0
 ####    GA   15.5    1000    1         Ground-Based Mech WT      564.1074273           0  0.33    97.7106 0.6261927     71.87         45    2.54    97.711    0.6261927      92          40     18.2  88.974 0.6261927          0         0             1        1        0
 ####    GA     16    1000    1         Ground-Based Mech WT      312.9759681           0  0.38    94.2904 0.8467973     47.45         45    2.68     94.29    0.8467973    72.4          40     21.3  90.837 0.8467973          0         0             1        1        0
 ####    GA   9.85    1000    1         Ground-Based Mech WT      439.4110323           0  0.47    96.1162 0.8811136     51.71         45    2.84    96.116    0.8811136    81.9          40     21.7    95.71 0.8811136         0         0             1        1        0
 ####    GA   12.6    1000    1         Ground-Based Mech WT      509.7197014           0    0.3   97.8549 0.6364814     50.07         45    2.82    97.855    0.6364814     113          40     25.1  88.863 0.6364814          0         0             1        1        0
 ####    GA   37.3    1000    1         Ground-Based Mech WT      494.1936712           0    0.4   93.5391 0.7116428     71.06         45    2.74    93.539    0.7116428     111          40     20.6  85.348 0.7116428          0         0             1        1        0
 ####    GA   8.09    1000    1         Ground-Based Mech WT      685.0067206           0  0.28    100.518 0.3283721     48.51         45    2.58    100.52    0.3283721    77.4          40     15.7  92.501 0.3283721          0         0             1        1        0
 ####    GA   0.72    1000    1         Ground-Based Mech WT      540.4225214           0  0.35    100.322 0.2487238     64.78         45    2.71    100.32    0.2487238     106          40     12.3    89.03 0.2487238         0         0             1        1        0
 ####    GA     22    1000    1         Ground-Based Mech WT      586.0115904           0  0.29    96.8321 0.6116461     41.23         45    2.56    96.832    0.6116461    69.8          40     13.3  85.493 0.6116461          0         0             1        1        0
 ####    GA    5.2    1000    1         Ground-Based Mech WT       260.291092           0  0.39      106.13 0.5126183    65.15         45    2.03    106.13    0.5126183    67.8          40     18.7  92.226 0.5126183          0         0             1        1        0
 ####    GA   8.08    1000    1         Ground-Based Mech WT         662.56509          0  0.33    100.806 0.4597174     86.28         45    2.65    100.81    0.4597174    83.3          40     16.9  87.817 0.4597174          0         0             1        1        0
 ####    GA   11.3    1000    1         Ground-Based Mech WT      520.5033491           0  0.38    98.8278 0.7332911     54.36         45    2.53    98.828    0.7332911    99.7          40     20.5  89.461 0.7332911          0         0             1        1        0
 ####    GA   19.3    1000    1         Ground-Based Mech WT      383.3956376           0  0.42    93.7178 0.7856918     55.71         45    2.84    93.718    0.7856918     119          40     23.6  89.217 0.7856918          0         0             1        1        0
 ####    GA   16.8    1000    1         Ground-Based Mech WT       538.113539           0  0.35    96.5693 0.7464341     50.22         45    2.75    96.569    0.7464341    89.1          40     20.6  88.247 0.7464341          0         0             1        1        0
 ####    GA   6.72    1000    1         Ground-Based Mech WT      664.8356921           0  0.28    103.941 0.3346178     69.06         45    2.41    103.94    0.3346178    78.7          40     14.4  88.472 0.3346178          0         0             1        1        0
 ####    GA   12.8    1000    1         Ground-Based Mech WT      424.4787005           0  0.33    101.257 0.5922027     73.63         45     2.5    101.26    0.5922027    89.6          40       19  89.602 0.5922027          0         0             1        1        0
 ####    GA   10.3    1000    1         Ground-Based Mech WT      623.9236793           0  0.34    99.3746 0.4233819     89.48         45    2.83    99.375    0.4233819     101          40     13.1  88.494 0.4233819          0         0             1        1        0
 ####    GA   9.92    1000    1         Ground-Based Mech WT      411.5960357           0  0.37    95.2799 0.7458716     55.33         45     2.9     95.28    0.7458716     118          40     17.5  92.129 0.7458716          0         0             1        1        0
 ####    GA   9.41    1000    1         Ground-Based Mech WT      626.4084671           0  0.32    103.687 0.3579359     82.77         45    2.28    103.69    0.3579359    74.9          40     15.2    88.46 0.3579359         0         0             1        1        0
 ####    GA   9.39    1000    1         Ground-Based Mech WT      654.5843888           0  0.28    98.0218    0.586313   55.35         45    2.51    98.022     0.586313     113          40       19  89.266    0.586313        0         0             1        1        0
 ####    GA   4.26    1000    1         Ground-Based Mech WT      300.0086284           0  0.43    98.9362 0.6462608     48.21         45    2.87    98.936    0.6462608    88.6          40     21.9    90.42 0.6462608         0         0             1        1        0
 ####    GA   1.65    1000    1         Ground-Based Mech WT      474.4730709           0  0.29    93.2565 0.3770647     50.39         45    2.77    93.257    0.3770647    82.5          40     19.2  89.816 0.3770647          0         0             1        1        0
 ####    GA   14.1    1000    1         Ground-Based Mech WT      727.6872176           0  0.34    97.7274 0.7617846     58.78         45     2.7    97.727    0.7617846    90.6          40     18.3  91.884 0.7617846          0         0             1        1        0
 ####    GA   8.76    1000    1         Ground-Based Mech WT         665.00535          0  0.31    99.4908 0.4145199      66.4         45    2.72    99.491    0.4145199     107          40     17.6  89.261 0.4145199          0         0             1        1        0
 ####    GA   2.84    1000    1         Ground-Based Mech WT      490.7479484           0  0.41    101.488 0.2435134     67.99         45    2.67    101.49    0.2435134    91.3          40     13.5  89.577 0.2435134          0         0             1        1        0
 ####    GA   2.59    1000    1         Ground-Based Mech WT      421.4465631           0  0.34    105.898 0.5574429     72.95         45    2.22     105.9    0.5574429    74.4          40       16  92.404 0.5574429          0         0             1        1        0
 ####    GA   2.12    1000    1         Ground-Based Mech WT      487.4386407           0  0.25    100.251 0.5522008     52.93         45    2.52    100.25    0.5522008    81.1          40     15.4  90.141 0.5522008          0         0             1        1        0
 ####    GA   4.38    1000    1         Ground-Based Mech WT      363.1836995           0    0.3   101.657 0.2993814     67.16         45    2.65    101.66    0.2993814     101          40     11.3  92.562 0.2993814          0         0             1        1        0
 ####    GA   9.12    1000    1         Ground-Based Mech WT      748.9587374           0  0.29    101.882 0.4340996     62.37         45    2.47    101.88    0.4340996    80.7          40     19.5  89.314 0.4340996          0         0             1        1        0
 ####    GA   7.83    1000    1         Ground-Based Mech WT      893.7261247           0  0.25    100.714 0.5289644      52.8         45     2.7    100.71    0.5289644    61.9          40     15.8  90.456 0.5289644          0         0             1        1        0
 ####    GA   1.14    1000    1         Ground-Based Mech WT      531.4508887           0    0.5   98.9911 0.3249319      56.3         45    2.55    98.991    0.3249319    68.5          40     17.4  94.372 0.3249319          0         0             1        1        0
 ####    GA   3.73    1000    1         Ground-Based Mech WT      596.5619743           0    0.3   103.808 0.4140483     79.31         45    2.41    103.81    0.4140483    97.8          40     13.9  92.408 0.4140483          0         0             1        1        0
 ####    GA   1.87    1000    1         Ground-Based Mech WT      206.7572888           0    0.3   101.549 0.6579355      40.5         45     2.2    101.55    0.6579355    60.5          40     19.9  94.931 0.6579355          0         0             1        1        0
 ####    GA   0.78    1000    1         Ground-Based Mech WT      369.6649736           0  0.37    95.8048 0.2922462        48         45    3.01    95.805    0.2922462     100          40     19.5  89.129 0.2922462          0         0             1        1        0
 ####    GA   10.5    1000    1         Ground-Based Mech WT      618.8133385           0  0.29    99.5921 0.3512539     69.77         45    2.43    99.592    0.3512539    86.5          40     20.9  86.735 0.3512539          0         0             1        1        0
 ####    GA   0.72    1000    1         Ground-Based Mech WT      660.7387512           0  0.32    99.6056 0.4909976     73.26         45    2.55    99.606    0.4909976    76.6          40     18.1    90.49 0.4909976         0         0             1        1        0
 ####    GA   1.83    1000    1         Ground-Based Mech WT      568.2572244           0  0.31      98.489 0.3655682     50.3         45    2.51    98.489    0.3655682    66.7          40       16    93.51 0.3655682         0         0             1        1        0
 ####    GA   29.6    1000    1         Ground-Based Mech WT      416.2683429           0  0.48    94.3836 0.7230982     58.78         45    2.82    94.384    0.7230982     111          40     24.7  87.104 0.7230982          0         0             1        1        0
 ####    GA   6.35    1000    1         Ground-Based Mech WT      507.8161824           0  0.36    99.5781 0.3953556     64.99         45    2.39    99.578    0.3953556    97.3          40       19  88.003 0.3953556          0         0             1        1        0
 ####    GA   0.38    1000    1         Ground-Based Mech WT      477.5485214           0  0.37    97.3399    0.393371   70.94         45    2.57     97.34     0.393371    95.1          40     13.1  89.564    0.393371        0         0             1        1        0
 ####    GA   4.87    1000    1         Ground-Based Mech WT      678.2250844           0  0.25    101.479 0.6926168     52.67         45    2.28    101.48    0.6926168      82          40     23.6  91.299 0.6926168          0         0             1        1        0
 ####    GA   10.5    1000    1         Ground-Based Mech WT      462.0318382           0    0.4     101.89 0.5787625    62.88         45    2.31    101.89    0.5787625    78.7          40     17.6  87.957 0.5787625          0         0             1        1        0
 ####    GA   7.96    1000    1         Ground-Based Mech WT       408.052554           0  0.29    105.773 0.4379352     70.95         45    2.24    105.77    0.4379352    75.3          40     11.2  92.003 0.4379352          0         0             1        1        0
 ####    GA   7.56    1000    1         Ground-Based Mech WT      580.8445076           0  0.31    101.844 0.4736282     70.11         45    2.41    101.84    0.4736282    81.5          40     14.4  88.004 0.4736282          0         0             1        1        0
 ####    GA   1.75    1000    1         Ground-Based Mech WT      532.2202635           0  0.35    96.0771 0.6214786     62.29         45    2.52    96.077    0.6214786    81.8          40     15.4  93.213 0.6214786          0         0             1        1        0
 ####    GA    2.9    1000    1         Ground-Based Mech WT      317.2886393           0  0.35    102.284 0.3422814     85.74         45    2.53    102.28    0.3422814    82.3          40     12.4    92.46 0.3422814         0         0             1        1        0
 ####    GA   10.3    1000    1         Ground-Based Mech WT      623.5445805           0  0.25      100.13 0.4265896    66.49         45    2.75    100.13    0.4265896     107          40     15.6     88.5 0.4265896         0         0             1        1        0
 ####    GA   3.13    1000    1         Ground-Based Mech WT       546.218247           0  0.33    101.286 0.5090872     54.33         45    2.54    101.29    0.5090872    79.8          40     12.7  91.961 0.5090872          0         0             1        1        0
 ####    GA   7.59    1000    1         Ground-Based Mech WT      722.9732405           0  0.33    99.4848 0.6522835     64.42         45    2.66    99.485    0.6522835    86.8          40     18.2  90.167 0.6522835          0         0             1        1        0
 ####    GA   25.5    1000    1         Ground-Based Mech WT      418.3478362           0  0.42    94.3044 0.6236355     58.47         45    2.77    94.304    0.6236355     110          40     15.7  86.582 0.6236355          0         0             1        1        0
 ####    GA    9.2    1000    1         Ground-Based Mech WT      681.9730548           0  0.35      102.41 0.4772142    94.58         45    2.42    102.41    0.4772142    74.8          40     19.9  89.831 0.4772142          0         0             1        1        0
 ####    GA   10.8    1000    1         Ground-Based Mech WT      704.8113386           0  0.24    96.2005 0.6288673      28.3         45     2.9    96.201    0.6288673    96.1          40       24  91.919 0.6288673          0         0             1        1        0
 ####    GA   9.17    1000    1         Ground-Based Mech WT       287.161723           0  0.41    98.4474 0.7688795     35.09         45     2.6    98.447    0.7688795    72.8          40     19.2  87.724 0.7688795          0         0             1        1        0
 ####    GA   9.71    1000    1         Ground-Based Mech WT      590.5007231           0  0.29    101.262 0.6933746     56.96         45    2.41    101.26    0.6933746    85.3          40     20.4    90.01 0.6933746         0         0             1        1        0
 ####    GA   16.3    1000    1         Ground-Based Mech WT      806.7030283           0  0.31    99.8502 0.6394807     80.94         45    2.55     99.85    0.6394807     102          40       18  89.929 0.6394807          0         0             1        1        0
 ####    GA   6.11    1000    1         Ground-Based Mech WT      502.9773957           0  0.24    97.9241 0.6124098     36.23         45    2.56    97.924    0.6124098    78.7          40     12.8  91.291 0.6124098          0         0             1        1        0
 ####    GA   21.4    1000    1         Ground-Based Mech WT      740.9348866           0  0.31    98.7678    0.777697   64.58         45    2.49    98.768     0.777697    89.3          40     19.5  88.458    0.777697        0         0             1        1        0
 ####    GA   0.97    1000    1         Ground-Based Mech WT      543.6310261           0  0.51    98.0211    0.387922   78.14         45    2.73    98.021     0.387922     104          40     12.7  89.375    0.387922        0         0             1        1        0
 ####    GA   6.87    1000    1         Ground-Based Mech WT      695.5181508           0  0.38    99.5615 0.6047496      60.6         45     2.7    99.562    0.6047496    94.7          40     18.1  90.344 0.6047496          0         0             1        1        0
 ####    GA   15.3    1000    1         Ground-Based Mech WT      713.2750003           0  0.29      98.889 0.5817938    62.47         45    2.42    98.889    0.5817938    93.1          40     14.1  88.739 0.5817938          0         0             1        1        0
 ####    GA      3    1000    1         Ground-Based Mech WT      469.8609523           0  0.31    100.747 0.4289742     39.44         45    2.28    100.75    0.4289742    63.5          40     18.1  92.905 0.4289742          0         0             1        1        0
 ####    GA   7.22    1000    1         Ground-Based Mech WT      821.6821111           0  0.26    99.0793 0.2608522     55.59         45    2.61    99.079    0.2608522    91.5          40       14  88.057 0.2608522          0         0             1        1        0
 ####    GA   15.1    1000    1         Ground-Based Mech WT      529.4567046           0  0.42    100.549 0.5061653     111.6         45    2.59    100.55    0.5061653     109          40     13.8  87.578 0.5061653          0         0             1        1        0
 ####    GA   33.5    1000    1         Ground-Based Mech WT      363.2415318           0  0.45    92.7536 0.7039932     66.32         45    3.01    92.754    0.7039932     120          40     22.6  86.247 0.7039932          0         0             1        1        0
 ####    GA   7.31    1000    1         Ground-Based Mech WT      482.7098516           0  0.37    104.277 0.5726837     73.28         45    2.18    104.28    0.5726837    86.5          40     14.4  89.124 0.5726837          0         0             1        1        0
 ####    GA   4.71    1000    1         Ground-Based Mech WT      546.0920038           0  0.39    98.8222 0.5381511     58.04         45    2.72    98.822    0.5381511    80.5          40       18  89.845 0.5381511          0         0             1        1        0
 ####    GA   10.4    1000    1         Ground-Based Mech WT      531.4650582           0  0.38    96.2225 0.4342896     51.49         45    2.88    96.222    0.4342896     118          40     20.8  87.447 0.4342896          0         0             1        1        0
 ####    GA   9.83    1000    1         Ground-Based Mech WT      595.8843493           0  0.29    103.908 0.4522117     77.94         45    2.45    103.91    0.4522117    74.7          40     12.7  91.379 0.4522117          0         0             1        1        0
 ####    GA   1.98    1000    1         Ground-Based Mech WT      444.0644776           0  0.37    101.203 0.4816935     79.57         45    2.42     101.2    0.4816935    97.3          40     15.5  91.808 0.4816935          0         0             1        1        0
 ####    GA    1.7    1000    1         Ground-Based Mech WT      153.1177671           0  0.35    101.031    0.294283   64.92         45    2.87    101.03     0.294283     103          40     14.4  93.264    0.294283        0         0             1        1        0
 ####    GA   6.62    1000    1         Ground-Based Mech WT       464.587982           0  0.36      100.37 0.6108644    72.12         45    2.69    100.37    0.6108644     102          40       20  90.937 0.6108644          0         0             1        1        0
 ####    GA   23.2    1000    1         Ground-Based Mech WT      704.9307603           0  0.36    95.0104    0.726767   49.65         45    2.66     95.01     0.726767    67.3          40     19.6  89.507    0.726767        0         0             1        1        0
 ####    GA   14.5    1000    1         Ground-Based Mech WT      675.7405065           0  0.32    106.464 0.5846445     86.09         45    2.06    106.46    0.5846445    56.9          40       12    90.42 0.5846445         0         0             1        1        0
 ####    GA   3.71    1000    1         Ground-Based Mech WT      407.6010878           0  0.31    102.848 0.3755224     82.12         45    2.31    102.85    0.3755224    80.3          40     15.1  98.862 0.3755224          0         0             1        1        0
 ####    GA   11.1    1000    1         Ground-Based Mech WT      676.6246515           0  0.32    101.429 0.4275125     96.12         45    2.43    101.43    0.4275125    82.6          40     12.1  89.715 0.4275125          0         0             1        1        0
 ####    GA   8.43    1000    1         Ground-Based Mech WT      789.6584561           0  0.29    101.586 0.3718986     64.88         45    2.35    101.59    0.3718986    59.9          40     17.8    88.21 0.3718986         0         0             1        1        0
 ####    GA   1.34    1000    1         Ground-Based Mech WT      492.5175191           0    0.4   102.266 0.3424977     87.86         45    2.47    102.27    0.3424977    86.9          40     14.1  88.746 0.3424977          0         0             1        1        0
 ####    GA   6.92    1000    1         Ground-Based Mech WT      683.3073926           0  0.27    100.626 0.3935683      67.5         45    2.52    100.63    0.3935683    63.8          40     11.4  89.203 0.3935683          0         0             1        1        0
 ####    GA    2.8    1000    1         Ground-Based Mech WT      725.8731842           0    0.3   102.479    0.536206   65.99         45     2.4    102.48     0.536206    70.9          40     14.6    90.25   0.536206        0         0             1        1        0
 ####    GA   3.92    1000    1         Ground-Based Mech WT      555.4761991           0  0.37    96.1937 0.6061222     49.09         45    2.76    96.194    0.6061222    73.2          40     15.6  91.794 0.6061222          0         0             1        1        0
 ####    GA   3.38    1000    1         Ground-Based Mech WT      142.2701993           0  0.49      100.55 0.4335167    33.64         45    2.59    100.55    0.4335167    63.9          40       22  94.291 0.4335167          0         0             1        1        0
 ####    GA   1.71    1000    1         Ground-Based Mech WT      466.6470943           0    0.2     92.879   0.489937   64.16         45    3.07    92.879     0.489937     112          40     19.4  92.444    0.489937        0         0             1        1        0
 ####    GA   2.89    1000    1         Ground-Based Mech WT      448.4254099           0  0.28    99.3304 0.4379874     55.24         45    2.75     99.33    0.4379874    88.9          40     12.9  92.637 0.4379874          0         0             1        1        0
 ####    GA   35.2    1000    1         Ground-Based Mech WT      315.9875495           0    0.4   94.6108 0.6850735     64.24         45    2.71    94.611    0.6850735     119          40     16.3  87.367 0.6850735          0         0             1        1        0
 ####    GA   1.79    1000    1         Ground-Based Mech WT      283.1091544           0  0.34    102.685 0.2751535     64.52         45    2.47    102.68    0.2751535    90.6          40     14.2  90.909 0.2751535          0         0             1        1        0
 ####    GA   10.2    1000    1         Ground-Based Mech WT      521.8893064           0  0.33    102.521    0.647107   72.76         45    2.41    102.52     0.647107    87.5          40     17.3  90.323    0.647107        0         0             1        1        0
 ####    GA   2.91    1000    1         Ground-Based Mech WT      377.1240827           0  0.32    104.223 0.1181094     74.41         45    2.38    104.22    0.1181094    55.9          40     11.8  95.902 0.1181094          0         0             1        1        0
 ####    GA   7.26    1000    1         Ground-Based Mech WT      598.4098563           0  0.31    100.888 0.5706346     49.25         45    2.62    100.89    0.5706346    74.7          40     17.8  90.421 0.5706346          0         0             1        1        0
 ####    GA   28.2    1000    1         Ground-Based Mech WT      544.0274834           0  0.41    92.3287 0.8179804     76.06         45    2.85    92.329    0.8179804     102          40     19.3  89.347 0.8179804          0         0             1        1        0
 ####    GA   13.9    1000    1         Ground-Based Mech WT      647.8598548           0  0.28    100.121 0.5568634     68.93         45    2.64    100.12    0.5568634    96.9          40     16.3  91.425 0.5568634          0         0             1        1        0
 ####    GA   19.8    1000    1         Ground-Based Mech WT      800.6267803           0  0.27    93.6393 0.7644257     56.79         45    2.79    93.639    0.7644257    93.5          40     18.4  87.602 0.7644257          0         0             1        1        0
 ####    GA   7.79    1000    1         Ground-Based Mech WT      325.7372425           0  0.31    98.6998 0.6966747      37.4         45    2.64      98.7    0.6966747    76.9          40     25.5  90.553 0.6966747          0         0             1        1        0
 ####    GA   0.56    1000    1         Ground-Based Mech WT      703.2251447           0  0.37    102.844 0.1522789     93.65         45     2.5    102.84    0.1522789    65.3          40     10.8  91.747 0.1522789          0         0             1        1        0
 ####    GA   5.77    1000    1         Ground-Based Mech WT      549.3003792           0  0.34    101.931 0.3803474     86.36         45    2.63    101.93    0.3803474     109          40     15.7  89.101 0.3803474          0         0             1        1        0
 ####    GA   7.23    1000    1         Ground-Based Mech WT       493.105442           0  0.33    103.584    0.468453   91.69         45    2.44    103.58     0.468453    80.8          40     15.1  90.515    0.468453        0         0             1        1        0
 ####    GA   0.95    1000    1         Ground-Based Mech WT      398.0065604           0  0.38    101.307 0.4586094     76.83         45    2.51    101.31    0.4586094    64.1          40     15.1  90.228 0.4586094          0         0             1        1        0
 ####    GA   6.32    1000    1         Ground-Based Mech WT      796.7824903           0  0.27    102.203 0.5812433     51.03         45    2.38     102.2    0.5812433    51.5          40     15.2  92.251 0.5812433          0         0             1        1        0
 ####    GA   3.24    1000    1         Ground-Based Mech WT      385.7003577           0  0.38    100.758 0.5345302     44.48         45    2.66    100.76    0.5345302    93.1          40     17.4  94.488 0.5345302          0         0             1        1        0
 ####    GA   27.9    1000    1         Ground-Based Mech WT      402.4693809           0  0.41      92.953 0.7111156    58.37         45    2.95    92.953    0.7111156     112          40     19.5  88.658 0.7111156          0         0             1        1        0
 ####    GA   20.4    1000    1         Ground-Based Mech WT      346.1068264           0  0.35    96.8303    0.771947   49.17         45    2.39     96.83     0.771947    72.4          40     22.7  87.605    0.771947        0         0             1        1        0
 ####    GA   2.27    1000    1         Ground-Based Mech WT      478.0003924           0  0.29    100.296 0.3799953     64.49         45    2.68     100.3    0.3799953    98.6          40     13.7  94.613 0.3799953          0         0             1        1        0
 ####    GA   9.96    1000    1         Ground-Based Mech WT      706.1708382           0    0.3   102.295 0.3311828     96.61         45    2.55    102.29    0.3311828    93.4          40     16.9    88.88 0.3311828         0         0             1        1        0
 ####    GA   6.91    1000    1         Ground-Based Mech WT      591.1143483           0  0.26    100.211 0.6051789     47.92         45    2.54    100.21    0.6051789    74.9          40     17.6  92.361 0.6051789          0         0             1        1        0
 ####    GA   2.55    1000    1         Ground-Based Mech WT      357.6040212           0  0.31    98.7098 0.4294911     31.99         45    2.54     98.71    0.4294911    74.2          40     19.7    92.04 0.4294911         0         0             1        1        0
 ####    KY     22    1000    1         Ground-Based Mech WT      503.9321266           0    0.3   92.8343 0.9788533     43.82         45    2.61    92.834    0.9788533    93.7          40     18.9  93.369 0.9788533          0         0             1        1        0
 ####    KY   18.5    1000    1         Ground-Based Mech WT      377.6051148           0  0.41    92.8257 0.9767906     50.14         45    2.74    92.826    0.9767906    88.3          40     21.4  92.336 0.9767906          0         0             1        1        0
 ####    KY   18.1    1000    1         Ground-Based Mech WT      357.6122174           0  0.32    96.7167 0.7259723      65.9         45    2.15    96.717    0.7259723    80.7          40     9.42  82.648 0.7259723          0         0             1        1        0
 ####    KY    2.7    1000    1         Ground-Based Mech WT      177.2143716           0  0.24    98.3854           1   43.76         45    2.37    98.385             1   73.7          40     19.7    85.22          1        0         0             1        1        0
 ####    KY   11.8    1000    1         Ground-Based Mech WT      408.5857868           0  0.41      96.759 0.9744005     42.9         45     2.4    96.759    0.9744005     112          40     26.3  88.707 0.9744005          0         0             1        1        0
 ####    KY     23    1000    1         Ground-Based Mech WT      320.0680651           0  0.31    92.7693 0.9285969     36.43         45    2.72    92.769    0.9285969    81.7          40     17.1  90.452 0.9285969          0         0             1        1        0
 ####    KY     42    1000    1         Ground-Based Mech WT      471.8000008           0  0.45    92.8735 0.9472408     52.98         45    2.92    92.874    0.9472408    92.3          40     21.9  92.383 0.9472408          0         0             1        1        0
 ####    KY   17.8    1000    1         Ground-Based Mech WT      212.7607148           0  0.63    90.7824 0.9975724     44.14         45    2.77    90.782    0.9975724    89.2          40     25.6  88.047 0.9975724          0         0             1        1        0
 ####    KY   14.6    1000    1         Ground-Based Mech WT      429.7263677           0    0.2   97.7841           1   46.67         45    1.89    97.784             1     75          40     11.2  116.52           1        0         0             1        1        0
 ####    KY   30.9    1000    1         Ground-Based Mech WT         439.58426          0  0.29    95.1802 0.9855199     34.26         45    2.53     95.18    0.9855199    73.6          40       20  89.786 0.9855199          0         0             1        1        0
 ####    KY   32.1    1000    1         Ground-Based Mech WT      257.0320942           0  0.37    100.892 0.9818218     46.36         45     2.2    100.89    0.9818218    90.9          40     16.9  92.043 0.9818218          0         0             1        1        0
 ####    KY   24.5    1000    1         Ground-Based Mech WT      307.4953445           0    0.5   94.3357 0.8983882     65.15         45     2.5    94.336    0.8983882     101          40     13.8    91.55 0.8983882         0         0             1        1        0
 ####    KY   45.1    1000    1         Ground-Based Mech WT      436.8630473           0  0.31    91.8392 0.9773748     43.55         45    2.77    91.839    0.9773748    73.8          40     20.3  94.846 0.9773748          0         0             1        1        0
 ####    KY   17.9    1000    1         Ground-Based Mech WT      334.8595592           0  0.37    92.6387 0.9594331     42.72         45    2.63    92.639    0.9594331    87.6          40     20.9  90.099 0.9594331          0         0             1        1        0
 ####    KY   18.3    1000    1         Ground-Based Mech WT       346.193283           0  0.45      92.181 0.7233101    35.73         45    2.51    92.181    0.7233101     103          40       22  86.351 0.7233101          0         0             1        1        0
 ####    KY   13.5    1000    1         Ground-Based Mech WT      674.9410636           0  0.34    94.0511 0.9475994     49.84         45    2.82    94.051    0.9475994    76.8          40     16.7  90.699 0.9475994          0         0             1        1        0
 ####    KY   14.1    1000    1         Ground-Based Mech WT      339.2403782           0  0.41    95.8988 0.7071543     50.11         45    2.38    95.899    0.7071543    85.3          40     23.2  88.819 0.7071543          0         0             1        1        0
 ####    KY   7.75    1000    1         Ground-Based Mech WT      353.1560396           0  0.33    93.9919 0.9989805     30.94         45    2.43    93.992    0.9989805    77.7          40     19.9  96.933 0.9989805          0         0             1        1        0
 ####    KY   24.2    1000    1         Ground-Based Mech WT      319.0302736           0    0.3   96.2296 0.9509456     63.78         45    2.22     96.23    0.9509456    84.2          40     17.7  89.747 0.9509456          0         0             1        1        0
####   KY   18.3   1000   1   Ground-Based Mech WT   28.42180508    0   0.73   92.8599    0.6436418    16.44   45    2.4    92.86   0.6436418    71.9   40   69.6    99.32   0.6436418    0   0   1   1   0
####   KY   39.8   1000   1   Ground-Based Mech WT   487.8569391    0   0.25   93.4523    0.8935203    77.96   45   2.66   93.452   0.8935203    79.9   40   19.6   93.925   0.8935203    0   0   1   1   0
####   KY   30.7   1000   1   Ground-Based Mech WT   392.0425686    0   0.33   92.5804    0.9391938    45.21   45   2.64    92.58   0.9391938      79   40   19.7   91.479   0.9391938    0   0   1   1   0
####   KY   37.6   1000   1   Ground-Based Mech WT    607.296524    0   0.39   91.9012    0.9593766    54.28   45   2.78   91.901   0.9593766    85.7   40   17.6   92.149   0.9593766    0   0   1   1   0
####   KY   10.5   1000   1   Ground-Based Mech WT   400.5101657    0   0.36   92.1732    0.9707273    37.06   45   2.43   92.173   0.9707273    87.6   40   19.6   89.367   0.9707273    0   0   1   1   0
####   KY   17.1   1000   1   Ground-Based Mech WT   233.3434238    0   0.38    94.455    0.8991457    52.95   45   2.53   94.455   0.8991457    99.9   40   16.8   88.776   0.8991457    0   0   1   1   0
####   KY   42.6   1000   1   Ground-Based Mech WT   455.5139254    0    0.4   92.8422    0.9715484    45.88   45   2.89   92.842   0.9715484    83.8   40   19.9   92.062   0.9715484    0   0   1   1   0
####   KY     38   1000   1   Ground-Based Mech WT   530.6440626    0   0.25   92.9745    0.8661385    44.61   45   2.55   92.975   0.8661385     107   40   17.2   89.431   0.8661385    0   0   1   1   0
####   KY   18.7   1000   1   Ground-Based Mech WT   397.7628519    0   0.39   93.0166    0.9919112       51   45   2.34   93.017   0.9919112     102   40     19   91.613   0.9919112    0   0   1   1   0
####   KY   40.1   1000   1   Ground-Based Mech WT   488.4535574    0   0.31   91.6475     0.976976    50.21   45   2.71   91.647    0.976976    78.9   40   19.6   95.957    0.976976    0   0   1   1   0
####   KY   10.1   1000   1   Ground-Based Mech WT   349.9279797    0   0.42   90.8455    0.9989186    52.66   45   2.78   90.846   0.9989186    94.1   40   21.1   91.788   0.9989186    0   0   1   1   0
####   KY   21.1   1000   1   Ground-Based Mech WT   274.1878622    0   0.31   91.8726    0.9576539    37.96   45   2.86   91.873   0.9576539    82.4   40   20.8   94.826   0.9576539    0   0   1   1   0
####   KY   42.9   1000   1   Ground-Based Mech WT   498.7263626    0   0.37   92.4798    0.8969182    39.26   45   2.64    92.48   0.8969182    85.5   40   24.5   92.417   0.8969182    0   0   1   1   0
####   KY   30.8   1000   1   Ground-Based Mech WT   428.6788996    0   0.37   91.6894    0.9303928    43.89   45   2.85   91.689   0.9303928    95.5   40   22.1   89.877   0.9303928    0   0   1   1   0
####   KY      3   1000   1   Ground-Based Mech WT    399.772195    0   0.75   88.5139             1   44.93   45   2.81   88.514            1    173   40   21.9   67.939            1   0   0   1   1   0
####   KY   20.2   1000   1   Ground-Based Mech WT   330.0396245    0   0.27   94.1532    0.9655614     35.5   45   2.81   94.153   0.9655614    72.2   40   22.2   90.838   0.9655614    0   0   1   1   0
####   KY   47.4   1000   1   Ground-Based Mech WT   438.4578051    0   0.26   91.8843    0.9889686    31.79   45   2.67   91.884   0.9889686    73.2   40   20.7   98.622   0.9889686    0   0   1   1   0
####   KY   16.2   1000   1   Ground-Based Mech WT   303.6793111    0    0.4   96.1111    0.9044715    49.57   45   2.35   96.111   0.9044715    87.8   40   16.3   91.263   0.9044715    0   0   1   1   0
####   KY   3.33   1000   1   Ground-Based Mech WT   91.31030142    0   0.36   96.4194    0.9131294    25.47   45   2.09   96.419   0.9131294    77.6   40     33   103.43   0.9131294    0   0   1   1   0
####   KY   20.9   1000   1   Ground-Based Mech WT   458.2791991    0   0.35   93.9979    0.9511877    37.65   45   2.58   93.998   0.9511877    79.2   40   17.2   85.752   0.9511877    0   0   1   1   0
####   KY   23.3   1000   1   Ground-Based Mech WT   334.0204191    0   0.38   102.502    0.8420866    70.29   45   2.22    102.5   0.8420866    90.4   40   13.7   88.774   0.8420866    0   0   1   1   0
####   KY   21.3   1000   1   Ground-Based Mech WT   290.2154544    0   0.37   97.3641    0.8951958    66.49   45   2.24   97.364   0.8951958    65.4   40   12.9   89.156   0.8951958    0   0   1   1   0
####   KY   6.08   1000   1   Ground-Based Mech WT   327.3179489    0   0.45   88.6745    0.9890179    41.61   45   2.38   88.675   0.9890179      82   40   20.1   89.285   0.9890179    0   0   1   1   0
####   KY   16.9   1000   1   Ground-Based Mech WT   442.4295797    0   0.31   90.3026    0.8711241    32.07   45   2.61   90.303   0.8711241    79.1   40   16.4    91.08   0.8711241    0   0   1   1   0
####   KY   20.9   1000   1   Ground-Based Mech WT   371.4263748    0   0.46   94.4121     0.975095    53.67   45    2.5   94.412    0.975095     103   40   20.8   91.825    0.975095    0   0   1   1   0
####   KY   29.5   1000   1   Ground-Based Mech WT   519.1219119    0   0.36   92.3388    0.9603326    41.54   45   2.69   92.339   0.9603326    68.7   40   16.2   90.304   0.9603326    0   0   1   1   0
####   KY   17.4   1000   1   Ground-Based Mech WT   292.3274637    0   0.53   91.9647    0.9993815    28.17   45    2.8   91.965   0.9993815    83.1   40   17.9   94.902   0.9993815    0   0   1   1   0
####   KY   13.9   1000   1   Ground-Based Mech WT   478.2025424    0    0.4   100.536    0.9339882    49.53   45    2.4   100.54   0.9339882    83.8   40   22.7    92.66   0.9339882    0   0   1   1   0
####   KY   48.7   1000   1   Ground-Based Mech WT   440.4958011    0   0.39   91.6248     0.984286    39.79   45   2.91   91.625    0.984286      93   40   23.5    95.17    0.984286    0   0   1   1   0
####   KY     19   1000   1   Ground-Based Mech WT   454.4113946    0   0.37   88.3309             1   75.08   45   2.51   88.331            1     98   40     12   85.587            1   0   0   1   1   0
####   KY   18.8   1000   1   Ground-Based Mech WT   509.3263492    0   0.41   98.0163    0.8355232    53.49   45   2.46   98.016   0.8355232    82.3   40   17.5   90.929   0.8355232    0   0   1   1   0
####   KY   3.14   1000   1   Ground-Based Mech WT   251.2079247    0    0.2   96.6305             1    14.9   45   2.15   96.631            1   61.5   40   26.2    86.71            1   0   0   1   1   0
####   KY   19.3   1000   1   Ground-Based Mech WT   376.5758684    0   0.39   94.4627    0.9064544     55.4   45   2.51   94.463   0.9064544    99.1   40   13.6   88.636   0.9064544    0   0   1   1   0
####   KY    5.6   1000   1   Ground-Based Mech WT   286.6515472    0   0.22   88.6324     0.775041    36.82   45   2.67   88.632    0.775041    74.6   40     28   90.378    0.775041    0   0   1   1   0
####   KY   9.74   1000   1   Ground-Based Mech WT   407.4548528    0    0.4   90.1439    0.9766684    50.38   45   2.76   90.144   0.9766684    95.5   40   15.6   88.654   0.9766684    0   0   1   1   0
####   KY   30.1   1000   1   Ground-Based Mech WT   495.7320192    0   0.34   93.7156    0.9649795    40.02   45    2.7   93.716   0.9649795    85.2   40   23.1   88.664   0.9649795    0   0   1   1   0
####   KY   17.3   1000   1   Ground-Based Mech WT    360.228434    0   0.48   91.5923    0.9403872    41.75   45   3.21   91.592   0.9403872     102   40   18.7   91.102   0.9403872    0   0   1   1   0
####   KY   24.2   1000   1   Ground-Based Mech WT   304.0571162    0   0.54   88.2506    0.8463233    50.17   45   2.73   88.251   0.8463233      99   40   12.7   84.822   0.8463233    0   0   1   1   0
####   KY     43   1000   1   Ground-Based Mech WT   493.5481774    0   0.36   95.9766    0.9600888    37.46   45   2.76   95.977   0.9600888    83.7   40   20.9       89   0.9600888    0   0   1   1   0
####   KY   24.2   1000   1   Ground-Based Mech WT   470.7143064    0   0.33   91.2913     0.982572    49.49   45   2.66   91.291    0.982572    83.2   40   17.9   86.337    0.982572    0   0   1   1   0
####   KY   50.4   1000   1   Ground-Based Mech WT   445.7012204    0    0.4   93.1571    0.9657028    40.64   45   2.87   93.157   0.9657028    81.1   40   23.8   97.263   0.9657028    0   0   1   1   0
####   KY   31.1   1000   1   Ground-Based Mech WT    500.357028    0   0.32   91.6133    0.9531037    42.06   45   2.71   91.613   0.9531037    74.7   40   22.4   93.329   0.9531037    0   0   1   1   0
####   KY     24   1000   1   Ground-Based Mech WT   403.4617018    0    0.4   93.4292    0.9937306    41.86   45   2.72   93.429   0.9937306      94   40   23.5   94.436   0.9937306    0   0   1   1   0
####   KY   28.9   1000   1   Ground-Based Mech WT   412.2797525    0    0.4   93.0636    0.8431273    44.13   45      3   93.064   0.8431273      94   40   20.6   91.181   0.8431273    0   0   1   1   0
####   KY   39.4   1000   1   Ground-Based Mech WT   464.0080295    0   0.36   90.9218    0.9313201    44.91   45   2.95   90.922   0.9313201    87.6   40   18.5    91.92   0.9313201    0   0   1   1   0
####   KY   27.5   1000   1   Ground-Based Mech WT   468.6281297    0   0.42   92.7511    0.8608816    45.98   45   2.92   92.751   0.8608816    88.3   40   23.2   93.243   0.8608816    0   0   1   1   0
####   KY   44.4   1000   1   Ground-Based Mech WT   517.0690045    0   0.37   89.9449    0.9734029    42.52   45   2.84   89.945   0.9734029    86.3   40   21.4   95.949   0.9734029    0   0   1   1   0
####   KY   46.6   1000   1   Ground-Based Mech WT   497.2819837    0   0.34    93.736     0.957109    42.15   45   2.81   93.736    0.957109      97   40   20.5   96.284    0.957109    0   0   1   1   0
####   KY   37.9   1000   1   Ground-Based Mech WT   516.0852395    0   0.38   93.2345    0.9697186    51.27   45   2.82   93.235   0.9697186      91   40   17.5   90.716   0.9697186    0   0   1   1   0
####   KY     17   1000   1   Ground-Based Mech WT   364.6957492    0    0.3   97.1217    0.9812052    51.83   45   2.47   97.122   0.9812052    84.9   40   21.2   92.421   0.9812052    0   0   1   1   0
####   KY    9.5   1000   1   Ground-Based Mech WT    420.314748    0   0.34   93.2874    0.9932298     40.2   45    2.6   93.287   0.9932298    75.5   40   17.5   89.328   0.9932298    0   0   1   1   0
####   KY   13.2   1000   1   Ground-Based Mech WT   256.0779824    0   0.48   92.7972    0.9572263    39.64   45    2.6   92.797   0.9572263     103   40   22.5   89.666   0.9572263    0   0   1   1   0
####   KY   19.9   1000   1   Ground-Based Mech WT   486.3617464    0    0.4   94.3888    0.8911555    77.79   45   2.81   94.389   0.8911555    95.9   40   17.4   92.446   0.8911555    0   0   1   1   0
####   KY   4.86   1000   1   Ground-Based Mech WT   302.9396749    0   0.46   92.3271             1   33.89   45   3.11   92.327            1    106   40   31.1   98.453            1   0   0   1   1   0
####   KY   26.7   1000   1   Ground-Based Mech WT   629.9061925    0   0.33   95.2311    0.8226875    52.31   45   2.91   95.231   0.8226875    96.5   40   20.1    91.31   0.8226875    0   0   1   1   0
####   KY   5.63   1000   1   Ground-Based Mech WT   202.2774154    0   0.49   96.9012             1    55.9   45   2.27   96.901            1   94.6   40   20.5   91.606            1   0   0   1   1   0
####   KY   22.7   1000   1   Ground-Based Mech WT   370.9891464    0   0.36   99.6031    0.8931947    57.53   45   2.09   99.603   0.8931947    78.9   40   16.6   89.296   0.8931947    0   0   1   1   0
####   KY     45   1000   1   Ground-Based Mech WT   381.5364339    0   0.31   92.4985    0.9500945    37.35   45   2.82   92.499   0.9500945    88.2   40   19.5   93.013   0.9500945    0   0   1   1   0
####   KY   29.5   1000   1   Ground-Based Mech WT   388.1867463    0   0.39   95.5647     0.974588    34.69   45   2.69   95.565    0.974588    73.7   40   19.9   95.104    0.974588    0   0   1   1   0
####   KY      7   1000   1   Ground-Based Mech WT   263.6915354    0   0.26   94.0494    0.9197082    49.75   45   2.57   94.049   0.9197082      77   40   25.6   92.331   0.9197082    0   0   1   1   0
####   KY   41.6   1000   1   Ground-Based Mech WT   493.1011329    0   0.35   90.5034    0.9473739    39.88   45   2.86   90.503   0.9473739    80.6   40   21.8   94.927   0.9473739    0   0   1   1   0
####   KY   20.9   1000   1   Ground-Based Mech WT   376.5045847    0    0.4   93.8769    0.9958487    67.31   45   2.44   93.877   0.9958487    89.2   40   18.5   92.708   0.9958487    0   0   1   1   0
####   KY     19   1000   1   Ground-Based Mech WT   438.5363409    0   0.28   93.9055    0.8640725    43.66   45   2.71   93.905   0.8640725     107   40   14.8   90.125   0.8640725    0   0   1   1   0
####   KY   40.7   1000   1   Ground-Based Mech WT   420.9854894    0   0.48   96.4845    0.8099074     44.9   45   2.89   96.485   0.8099074     108   40   23.9    92.71   0.8099074    0   0   1   1   0
####   KY   24.3   1000   1   Ground-Based Mech WT   430.0198858    0   0.27   104.848    0.8645635       48   45   1.84   104.85   0.8645635    71.8   40   11.5   90.203   0.8645635    0   0   1   1   0
####   KY   20.6   1000   1   Ground-Based Mech WT   349.2623814    0   0.43   93.4762    0.9700879     57.1   45   2.81   93.476   0.9700879    89.6   40     16   89.933   0.9700879    0   0   1   1   0
####   KY   24.5   1000   1   Ground-Based Mech WT   659.5420897    0    0.4   91.7335    0.9660343    56.37   45   2.83   91.734   0.9660343     113   40   15.2   88.603   0.9660343    0   0   1   1   0
####   KY     25   1000   1   Ground-Based Mech WT   390.2110547    0   0.42   94.9218    0.9936972    49.75   45   2.43   94.922   0.9936972    87.5   40     24    95.61   0.9936972    0   0   1   1   0
####   KY   40.6   1000   1   Ground-Based Mech WT   445.2224272    0   0.36   96.6491    0.9226295    40.39   45   2.83   96.649   0.9226295    99.3   40   21.3   91.954   0.9226295    0   0   1   1   0
####   KY   14.9   1000   1   Ground-Based Mech WT   331.8109473    0   0.34   94.0689    0.8586202    47.43   45   2.71   94.069   0.8586202    90.6   40   19.4   90.555   0.8586202    0   0   1   1   0
####   KY   18.1   1000   1   Ground-Based Mech WT   398.3967014    0   0.42   91.0703    0.9444511    30.22   45   2.61    91.07   0.9444511    87.2   40   24.8   91.873   0.9444511    0   0   1   1   0
####   KY   15.7   1000   1   Ground-Based Mech WT   297.3709194    0   0.39   96.7245    0.7954501    53.53   45   2.39   96.724   0.7954501     116   40     15   90.545   0.7954501    0   0   1   1   0
####   KY   13.5   1000   1   Ground-Based Mech WT    330.833105    0   0.38   92.0392    0.8941292    43.18   45   2.66   92.039   0.8941292    93.8   40   18.3   94.093   0.8941292    0   0   1   1   0
####   KY   18.6   1000   1   Ground-Based Mech WT   341.6185634    0   0.53   91.6633    0.8396005    42.76   45   2.88   91.663   0.8396005     104   40   23.9   89.068   0.8396005    0   0   1   1   0
####   KY     24   1000   1   Ground-Based Mech WT   356.0659138    0   0.34   98.0572    0.8500489    62.36   45   2.19   98.057   0.8500489    85.4   40   16.9   93.087   0.8500489    0   0   1   1   0
####   KY   35.9   1000   1   Ground-Based Mech WT   533.4231043    0   0.29   96.3656    0.8509715    36.98   45   2.56   96.366   0.8509715    75.7   40   21.1   93.247   0.8509715    0   0   1   1   0
####   KY     22   1000   1   Ground-Based Mech WT   397.1768155    0   0.36   93.6831    0.9318837    59.57   45   2.41   93.683   0.9318837    90.3   40   14.9   90.911   0.9318837    0   0   1   1   0
####   KY     50   1000   1   Ground-Based Mech WT   475.1717995    0   0.33   94.3399    0.9572973    43.81   45    2.7    94.34   0.9572973    93.6   40   21.7   104.65   0.9572973    0   0   1   1   0
####   KY     56   1000   1   Ground-Based Mech WT   401.1887376    0   0.27   92.7503    0.9733676    36.44   45   2.84    92.75   0.9733676    88.5   40   23.6   95.483   0.9733676    0   0   1   1   0
####   KY   26.6   1000   1   Ground-Based Mech WT   297.5013444    0   0.49   90.0778    0.8864783    36.78   45   2.89   90.078   0.8864783      96   40   27.3   86.286   0.8864783    0   0   1   1   0
####   KY   25.4   1000   1   Ground-Based Mech WT   391.8493183    0   0.39   92.5297    0.8859853    49.39   45   2.79    92.53   0.8859853     101   40   17.2   89.247   0.8859853    0   0   1   1   0
####   KY   23.1   1000   1   Ground-Based Mech WT   455.6833242    0   0.35   102.526    0.6210611    75.49   45   2.05   102.53   0.6210611    98.3   40   8.66   86.294   0.6210611    0   0   1   1   0
####   KY   30.4   1000   1   Ground-Based Mech WT   450.9852092    0   0.32   89.8242    0.9742928    47.65   45   2.82   89.824   0.9742928    86.7   40   22.6   91.957   0.9742928    0   0   1   1   0
####   KY   36.5   1000   1   Ground-Based Mech WT   444.4611896    0   0.28   91.2635    0.9699601    40.03   45   2.79   91.263   0.9699601    92.8   40   23.7   95.276   0.9699601    0   0   1   1   0
####   KY   23.4   1000   1   Ground-Based Mech WT   520.5428952    0    0.3   90.8832    0.9548978    49.12   45   2.74   90.883   0.9548978    96.4   40   22.7   91.081   0.9548978    0   0   1   1   0
####   KY     18   1000   1   Ground-Based Mech WT   445.6059389    0   0.28   93.1613    0.8929264    52.27   45   2.37   93.161   0.8929264    59.7   40   12.6   87.476   0.8929264    0   0   1   1   0
####   KY   14.5   1000   1   Ground-Based Mech WT   475.3176904    0   0.35    96.647     0.933256    50.97   45   2.51   96.647    0.933256    87.4   40   19.2   86.404    0.933256    0   0   1   1   0
####   KY   11.7   1000   1   Ground-Based Mech WT   149.2835511    0   0.34   96.1136             1   63.79   45   2.28   96.114            1    103   40   26.6       95            1   0   0   1   1   0
####   KY   20.1   1000   1   Ground-Based Mech WT   437.0578277    0   0.35   93.6988    0.9625735     49.1   45   2.32   93.699   0.9625735    91.9   40   15.8   87.089   0.9625735    0   0   1   1   0
####   KY     18   1000   1   Ground-Based Mech WT   453.7252911    0   0.36    94.584    0.9779879    38.64   45   2.61   94.584   0.9779879    79.2   40   20.1   92.132   0.9779879    0   0   1   1   0
####   KY   11.6   1000   1   Ground-Based Mech WT   231.1102939    0   0.39   93.8221     0.958956    53.66   45   2.38   93.822    0.958956      99   40   15.8   89.374    0.958956    0   0   1   1   0
####   KY   15.9   1000   1   Ground-Based Mech WT    300.142535    0   0.44   91.0767    0.9654735    37.23   45    2.8   91.077   0.9654735    80.8   40   16.3   89.389   0.9654735    0   0   1   1   0
####   KY   22.4   1000   1   Ground-Based Mech WT   336.5744336    0   0.37   93.8588    0.8921437    42.92   45   2.82   93.859   0.8921437     107   40   20.3    108.1   0.8921437    0   0   1   1   0
####   KY   8.17   1000   1   Ground-Based Mech WT   249.5073844    0   0.29   98.1597             1   30.28   45   2.33    98.16            1   85.9   40   24.1   85.683            1   0   0   1   1   0
####   KY   16.2   1000   1   Ground-Based Mech WT   393.2174708    0   0.29    99.208    0.9232219    56.32   45   2.37   99.208   0.9232219    76.2   40   16.3   90.037   0.9232219    0   0   1   1   0
####   KY     22   1000   1   Ground-Based Mech WT   230.7287749    0   0.29   95.1358    0.8918055    38.96   45   2.45   95.136   0.8918055    78.2   40   14.4   86.909   0.8918055    0   0   1   1   0
####   KY   23.8   1000   1   Ground-Based Mech WT   425.6308193    0   0.34   91.3546     0.963069     45.9   45   2.88   91.355    0.963069    99.3   40   19.3    89.12    0.963069    0   0   1   1   0
####   KY   15.5   1000   1   Ground-Based Mech WT   334.0505941    0   0.31   95.0861             1   28.31   45   1.88   95.086            1   50.8   40   18.4   91.543            1   0   0   1   1   0
####   KY   28.8   1000   1   Ground-Based Mech WT   447.7627667    0   0.33   94.2291    0.9283576     44.2   45   2.77   94.229   0.9283576    92.5   40   20.5    93.21   0.9283576    0   0   1   1   0
####   KY   29.5   1000   1   Ground-Based Mech WT    633.263397    0   0.29   98.6616    0.8270861    51.87   45   2.74   98.662   0.8270861    87.1   40   17.1   88.978   0.8270861    0   0   1   1   0
####   KY   21.5   1000   1   Ground-Based Mech WT    149.930564    0   0.83   92.8662    0.8782095    42.13   45   2.77   92.866   0.8782095     111   40     15    84.37   0.8782095    0   0   1   1   0
####   LA   0.75   1000   1   Ground-Based Mech WT   413.0225395    0   0.24   103.597    0.7225068    37.42   45   2.07    103.6   0.7225068    64.4   40   18.8   100.64   0.7225068    0   0   1   1   0
####   LA   1.18   1000   1   Ground-Based Mech WT   497.4874352    0    0.3   104.945    0.4342954    58.08   45   2.34   104.94   0.4342954    67.1   40     17   96.733   0.4342954    0   0   1   1   0
####   LA   10.3   1000   1   Ground-Based Mech WT   370.9313213    0   0.34   87.8455    0.7199561    41.38   45    2.7   87.845   0.7199561    90.8   40   24.2   97.368   0.7199561    0   0   1   1   0
####   LA   0.89   1000   1   Ground-Based Mech WT   445.8709325    0   0.39   86.7874     0.505679    57.81   45   3.03   86.787    0.505679     148   40   24.7   93.919    0.505679    0   0   1   1   0
####   LA   1.02   1000   1   Ground-Based Mech WT   398.8631953    0   0.33   90.3741     0.853685    27.28   45   2.28   90.374    0.853685    56.3   40   22.4   92.421    0.853685    0   0   1   1   0
####   LA    1.3   1000   1   Ground-Based Mech WT   494.2020578    0   0.33   105.738    0.3396526    46.15   45   2.31   105.74   0.3396526    54.1   40   19.1   98.321   0.3396526    0   0   1   1   0
####   LA   3.95   1000   1   Ground-Based Mech WT   626.5388074    0   0.27   102.043    0.3008947    68.17   45   2.38   102.04   0.3008947    80.5   40   17.4   88.105   0.3008947    0   0   1   1   0
####   LA   2.62   1000   1   Ground-Based Mech WT   365.1585793    0   0.24   101.993    0.4715388    34.29   45   2.32   101.99   0.4715388    60.2   40   18.1   89.788   0.4715388    0   0   1   1   0
####   LA   2.26   1000   1   Ground-Based Mech WT   575.8244318    0   0.25   101.285    0.6904178    40.76   45   2.08   101.28   0.6904178    47.8   40   18.9   90.389   0.6904178    0   0   1   1   0
####   LA   0.64   1000   1   Ground-Based Mech WT   482.4228922    0    0.3   107.034    0.4583245    47.64   45   2.23   107.03   0.4583245    55.2   40   19.4   98.036   0.4583245    0   0   1   1   0
####   LA    2.8   1000   1   Ground-Based Mech WT   505.3954954    0   0.31   103.837    0.5552562    64.01   45   2.28   103.84   0.5552562    66.1   40     15   92.205   0.5552562    0   0   1   1   0
####   LA   5.74   1000   1   Ground-Based Mech WT   471.7376104    0    0.3   95.6369    0.5249425    26.53   45   2.76   95.637   0.5249425    56.6   40   19.3   94.839   0.5249425    0   0   1   1   0
####   LA   4.33   1000   1   Ground-Based Mech WT   567.4644453    0   0.24   102.495    0.4256989    48.83   45   2.34    102.5   0.4256989      56   40   22.2    90.15   0.4256989    0   0   1   1   0
####   LA      1   1000   1   Ground-Based Mech WT   464.2967318    0   0.31   91.3342    0.9329483    25.44   45   2.45   91.334   0.9329483    65.9   40   34.4   99.931   0.9329483    0   0   1   1   0
####   LA   3.42   1000   1   Ground-Based Mech WT   468.9724479    0   0.26    102.97    0.4655201    45.19   45   2.33   102.97   0.4655201      71   40   20.8    91.67   0.4655201    0   0   1   1   0
####   LA   1.12   1000   1   Ground-Based Mech WT   510.6680677    0   0.34   101.773     0.941477    40.89   45   2.35   101.77    0.941477    54.5   40   24.4    93.23    0.941477    0   0   1   1   0
####   LA      0   1000   1   Ground-Based Mech WT   125.1047943    0   0.48   87.0071             1   14.11   45   2.54   87.007            1   32.1   40   21.2   91.525            1   0   0   1   1   0
####   LA   1.48   1000   1   Ground-Based Mech WT   300.0357851    0   0.29   101.683    0.5765481    43.88   45    2.6   101.68   0.5765481    75.2   40   21.9   93.844   0.5765481    0   0   1   1   0
####   LA   2.33   1000   1   Ground-Based Mech WT    545.081164    0   0.28   101.343    0.3988983    33.03   45   2.52   101.34   0.3988983    66.8   40   27.4   90.871   0.3988983    0   0   1   1   0
####   LA   0.92   1000   1   Ground-Based Mech WT   223.3077448    0   0.26   95.3131    0.7033494    29.54   45   2.91   95.313   0.7033494    61.6   40   23.1   94.799   0.7033494    0   0   1   1   0
####   LA   3.98   1000   1   Ground-Based Mech WT   493.5187787    0   0.29   99.6841    0.4491607    44.45   45   2.58   99.684   0.4491607    81.6   40   27.9   92.073   0.4491607    0   0   1   1   0
####   LA   0.47   1000   1   Ground-Based Mech WT   263.7202497    0    0.4   92.1907    0.8738242    45.87   45   2.39   92.191   0.8738242     106   40   15.7   93.303   0.8738242    0   0   1   1   0
####   LA   0.29   1000   1   Ground-Based Mech WT   228.1102152    0   0.38   94.8755    0.7893361    45.16   45   2.42   94.875   0.7893361     101   40   20.1   90.682   0.7893361    0   0   1   1   0
####   LA   2.78   1000   1   Ground-Based Mech WT   526.3857775    0   0.27   103.961    0.3387022    56.91   45   2.28   103.96   0.3387022    69.3   40   15.3   88.668   0.3387022    0   0   1   1   0
####   LA      0   1000   1   Ground-Based Mech WT   304.9476549    0   0.32   100.195     0.458693    24.48   45   1.79   100.19    0.458693    46.5   40   21.6   97.671    0.458693    0   0   1   1   0
####   LA   2.08   1000   1   Ground-Based Mech WT   303.8179436    0   0.35   97.9201    0.4207536    36.59   45   3.01    97.92   0.4207536    52.8   40   21.3   90.597   0.4207536    0   0   1   1   0
####   LA   0.75   1000   1   Ground-Based Mech WT   229.0117553    0   0.17   95.0684             1    6.95   45    2.7   95.068            1   46.5   40   20.4   96.535            1   0   0   1   1   0
####   LA   0.14   1000   1   Ground-Based Mech WT   300.6711551    0   0.42   96.1454    0.5540433    23.95   45   2.42   96.145   0.5540433      68   40   24.7    94.72   0.5540433    0   0   1   1   0
####   LA   3.62   1000   1   Ground-Based Mech WT   545.6088718    0   0.27   106.439    0.5608419     55.8   45   2.06   106.44   0.5608419    55.7   40   18.1   94.677   0.5608419    0   0   1   1   0
####   LA   6.81   1000   1   Ground-Based Mech WT   506.4669635    0   0.24   99.8579    0.4602685    37.99   45   2.45   99.858   0.4602685    62.1   40   21.4    90.74   0.4602685    0   0   1   1   0
####   LA   0.85   1000   1   Ground-Based Mech WT   527.9540153    0   0.31   96.3439    0.5582989    45.03   45   2.54   96.344   0.5582989    91.7   40   21.5   92.363   0.5582989    0   0   1   1   0
####   LA    0.4   1000   1   Ground-Based Mech WT   294.0543342    0   0.46   96.5923             1   34.23   45   2.35   96.592            1   64.8   40   24.8   88.332            1   0   0   1   1   0
####   LA   0.82   1000   1   Ground-Based Mech WT   277.9169876    0    0.3   91.8329    0.6874856    26.11   45    2.7   91.833   0.6874856    57.2   40   25.2   92.083   0.6874856    0   0   1   1   0
####   LA   3.63   1000   1   Ground-Based Mech WT   499.6182814    0   0.27     99.89    0.4486643    57.16   45   2.45    99.89   0.4486643      87   40   19.8   90.286   0.4486643    0   0   1   1   0
####   LA   3.32   1000   1   Ground-Based Mech WT    266.701333    0   0.33   95.7794    0.5717109    35.58   45   2.65   95.779   0.5717109    58.3   40   25.4   93.658   0.5717109    0   0   1   1   0
####   LA      0   1000   1   Ground-Based Mech WT   241.0828837    0   0.13    99.464             1   22.51   45   2.04   99.464            1   33.5   40   21.4    89.82            1   0   0   1   1   0
####   LA   0.55   1000   1   Ground-Based Mech WT   309.9267136    0   0.35   93.3647    0.9314745    34.59   45   2.41   93.365   0.9314745    81.5   40   26.5    93.07   0.9314745    0   0   1   1   0
####   LA   3.76   1000   1   Ground-Based Mech WT   514.5596994    0   0.32   101.466    0.3144719    57.55   45   2.55   101.47   0.3144719    81.7   40   20.2    91.28   0.3144719    0   0   1   1   0
####   LA   1.79   1000   1   Ground-Based Mech WT   561.9146225    0   0.22   98.5239    0.6223569    38.99   45   2.63   98.524   0.6223569    58.9   40   18.5   90.822   0.6223569    0   0   1   1   0
####   LA   0.15   1000   1   Ground-Based Mech WT   104.9092406    0   0.32   94.4346    0.9504108    18.14   45   2.59   94.435   0.9504108    59.5   40   21.3   100.06   0.9504108    0   0   1   1   0
####   LA   3.69   1000   1   Ground-Based Mech WT    496.989971    0   0.28   102.794    0.3302827    56.58   45   2.45   102.79   0.3302827    77.7   40   19.4   90.262   0.3302827    0   0   1   1   0
####   LA      0   1000   1   Ground-Based Mech WT              0   0      0          0            1       0   45      0        0            1   6.21   40   30.6   179.85            1   0   0   1   1   0
####   LA   0.19   1000   1   Ground-Based Mech WT   357.1405071    0   0.41   87.7624    0.7800966    58.32   45   2.86   87.762   0.7800966     106   40   17.3   90.673   0.7800966    0   0   1   1   0
####   LA    3.3   1000   1   Ground-Based Mech WT   486.9437763    0   0.26   105.098    0.3699986    68.14   45   2.28    105.1   0.3699986    63.1   40     23   89.905   0.3699986    0   0   1   1   0
####   LA   0.08   1000   1   Ground-Based Mech WT   179.0750242    0   0.35   85.1299    0.6808427    22.76   45   2.59    85.13   0.6808427     102   40   25.5   95.051   0.6808427    0   0   1   1   0
####   LA      0   1000   1   Ground-Based Mech WT   244.2873781    0   0.33   83.1594    0.6274864    31.38   45   2.76   83.159   0.6274864    98.1   40   17.3   93.363   0.6274864    0   0   1   1   0
####   LA   0.82   1000   1   Ground-Based Mech WT    483.027281    0   0.39   92.7283    0.8780724    34.66   45   2.42   92.728   0.8780724    70.2   40   27.3   96.337   0.8780724    0   0   1   1   0
####   LA   0.44   1000   1   Ground-Based Mech WT   360.6398645    0   0.38   90.8174    0.6794133    32.66   45   2.74   90.817   0.6794133    91.9   40   21.5   95.417   0.6794133    0   0   1   1   0
####   LA   0.45   1000   1   Ground-Based Mech WT   317.9683481    0   0.45   91.6782    0.7170879    61.39   45   2.69   91.678   0.7170879     121   40   15.1   89.954   0.7170879    0   0   1   1   0
####   LA   0.75   1000   1   Ground-Based Mech WT   497.0959613    0   0.32   99.2504    0.5649448    52.05   45   2.22    99.25   0.5649448    67.6   40   23.4   94.461   0.5649448    0   0   1   1   0
####   LA   1.35   1000   1   Ground-Based Mech WT   595.2404216    0   0.36   99.5263    0.4970896    70.87   45   2.56   99.526   0.4970896     100   40   16.2   91.306   0.4970896    0   0   1   1   0
####   LA   1.14   1000   1   Ground-Based Mech WT   166.2884971    0   0.27   90.8714             1   25.29   45   2.61   90.871            1   70.1   40   21.1   94.836            1   0   0   1   1   0
####   LA   0.08   1000   1   Ground-Based Mech WT   361.1604674    0   0.37   91.4339     0.450831    29.99   45   2.63   91.434    0.450831    98.5   40   25.2   95.736    0.450831    0   0   1   1   0
####   LA   2.55   1000   1   Ground-Based Mech WT   370.8242533    0   0.23   103.937    0.4481142    39.61   45   2.21   103.94   0.4481142    49.5   40   20.9   90.569   0.4481142    0   0   1   1   0
####   LA      1   1000   1   Ground-Based Mech WT   139.7720807    0   0.32   98.7227             1      16   45   2.24   98.723            1   30.9   40   14.1   92.817            1   0   0   1   1   0
####   LA    2.6   1000   1   Ground-Based Mech WT   596.6796021    0   0.31   102.017    0.2658508    57.19   45   2.52   102.02   0.2658508    73.5   40   18.4   92.102   0.2658508    0   0   1   1   0
####   LA   3.76   1000   1   Ground-Based Mech WT   419.7943777    0   0.29   100.303    0.5447626    44.19   45   2.57    100.3   0.5447626    58.8   40   17.5     90.9   0.5447626    0   0   1   1   0
####   LA   3.63   1000   1   Ground-Based Mech WT   636.1270793    0   0.29    101.54    0.4854154    58.48   45   2.21   101.54   0.4854154    73.3   40   17.6    89.82   0.4854154    0   0   1   1   0
####   LA   1.89   1000   1   Ground-Based Mech WT   270.3869727    0   0.44   96.0715             1   39.72   45   2.45   96.071            1   81.7   40     24   97.076            1   0   0   1   1   0
####   LA   0.09   1000   1   Ground-Based Mech WT    126.630505    0   0.45   88.7366    0.8715809    8.104   45   1.98   88.737   0.8715809    38.1   40   22.2   103.59   0.8715809    0   0   1   1   0
####   LA   6.17   1000   1   Ground-Based Mech WT   356.8986934    0   0.33   99.8681    0.7466526    37.46   45   2.41   99.868   0.7466526    74.3   40   26.6   95.692   0.7466526    0   0   1   1   0
####   LA   3.26   1000   1   Ground-Based Mech WT   486.6482028    0   0.34   102.892    0.3461055    63.64   45   2.48   102.89   0.3461055    87.3   40     18    90.58   0.3461055    0   0   1   1   0
####   MS   16.1   1000   1   Ground-Based Mech WT   295.7358947    0    0.4   95.1442    0.8767177    50.78   45   2.55   95.144   0.8767177    74.8   40   28.6   100.34   0.8767177    0   0   1   1   0
####   MS   13.3   1000   1   Ground-Based Mech WT   693.6027988    0   0.25   104.464    0.6629128    76.47   45   1.99   104.46   0.6629128    89.1   40     16   97.432   0.6629128    0   0   1   1   0
####   MS   7.99   1000   1   Ground-Based Mech WT   572.9703465    0   0.29   104.369    0.4138214    85.78   45   2.32   104.37   0.4138214    86.3   40   17.4   89.447   0.4138214    0   0   1   1   0
####   MS   9.14   1000   1   Ground-Based Mech WT   765.8278108    0   0.28   98.9476    0.5589519    56.06   45   2.51   98.948   0.5589519    82.2   40   15.8    90.54   0.5589519    0   0   1   1   0
####   MS   11.2   1000   1   Ground-Based Mech WT   654.6587286    0   0.26   101.395    0.6701924    50.72   45    2.1    101.4   0.6701924    83.4   40   17.7   93.541   0.6701924    0   0   1   1   0
####   MS   3.19   1000   1   Ground-Based Mech WT   261.8811302    0   0.31   92.5788    0.9741731    25.64   45   2.29   92.579   0.9741731    65.6   40   22.3   94.398   0.9741731    0   0   1   1   0
####   MS   7.92   1000   1   Ground-Based Mech WT   656.4282279    0   0.24   103.297    0.4368108    51.29   45   2.33    103.3   0.4368108    76.3   40   13.7   91.554   0.4368108    0   0   1   1   0
####   MS    9.9   1000   1   Ground-Based Mech WT   453.8791603    0   0.29   103.187    0.5806075    52.32   45   2.25   103.19   0.5806075    75.2   40   16.3   92.574   0.5806075    0   0   1   1   0
####   MS   6.25   1000   1   Ground-Based Mech WT    752.160009    0   0.22   105.882    0.4395913    61.43   45   2.09   105.88   0.4395913    71.1   40   17.1   90.486   0.4395913    0   0   1   1   0
####   MS   7.49   1000   1   Ground-Based Mech WT   719.7228943    0   0.26    105.11    0.4673627    71.68   45    2.2   105.11   0.4673627    83.4   40   13.7   92.334   0.4673627    0   0   1   1   0
####   MS   14.5   1000   1   Ground-Based Mech WT   335.7985033    0   0.35   96.8843    0.8696075    37.07   45   2.54   96.884   0.8696075    79.6   40     26   93.872   0.8696075    0   0   1   1   0
####   MS   7.94   1000   1   Ground-Based Mech WT   825.0977989    0   0.27   101.832    0.3506304    76.02   45    2.6   101.83   0.3506304    81.5   40   14.9   88.686   0.3506304    0   0   1   1   0
####   MS   4.64   1000   1   Ground-Based Mech WT   627.8514884    0   0.25   101.019    0.6392808    51.46   45   2.37   101.02   0.6392808    90.5   40   16.8   93.495   0.6392808    0   0   1   1   0
####   MS    2.5   1000   1   Ground-Based Mech WT   138.2733688    0   0.32   88.3928    0.9634926    42.43   45   2.49   88.393   0.9634926    85.4   40   27.8   94.793   0.9634926    0   0   1   1   0
####   MS    8.1   1000   1   Ground-Based Mech WT   543.7311012    0    0.3   100.873    0.5161765    64.61   45   2.49   100.87   0.5161765    79.6   40   18.6   91.557   0.5161765    0   0   1   1   0
####   MS   5.46   1000   1   Ground-Based Mech WT    734.109218    0   0.29   102.764    0.3023403    47.81   45   2.38   102.76   0.3023403    87.2   40   14.8   89.637   0.3023403    0   0   1   1   0
####   MS   7.08   1000   1   Ground-Based Mech WT   426.9258016    0   0.26   92.4416    0.9283472    30.63   45   2.43   92.442   0.9283472    58.7   40   22.3   102.09   0.9283472    0   0   1   1   0
####   MS   5.66   1000   1   Ground-Based Mech WT   459.0892219    0   0.34   100.222    0.4061753    50.92   45   2.56   100.22   0.4061753    70.1   40   14.8   91.303   0.4061753    0   0   1   1   0
####   MS   11.3   1000   1   Ground-Based Mech WT   489.3638685    0    0.3   102.743    0.4177318    80.45   45    2.4   102.74   0.4177318     101   40   21.4   89.859   0.4177318    0   0   1   1   0
####   MS   4.75   1000   1   Ground-Based Mech WT   483.2864406    0   0.37   95.6543    0.5957819    61.98   45   2.54   95.654   0.5957819    79.8   40   16.3   90.751   0.5957819    0   0   1   1   0
####   MS   7.89   1000   1   Ground-Based Mech WT   469.7335384    0   0.34   102.076    0.3996577    80.17   45   2.31   102.08   0.3996577      68   40   15.6   90.613   0.3996577    0   0   1   1   0
####   MS   8.67   1000   1   Ground-Based Mech WT   634.0703512    0   0.32   102.746    0.5384021    66.95   45    2.3   102.75   0.5384021    83.6   40   16.2   93.063   0.5384021    0   0   1   1   0
####   MS   1.36   1000   1   Ground-Based Mech WT   549.8558682    0   0.34   97.5777    0.4493388    54.71   45   2.47   97.578   0.4493388    70.1   40   12.5   93.318   0.4493388    0   0   1   1   0
####   MS   3.48   1000   1   Ground-Based Mech WT   436.5151388    0   0.43   97.3963    0.2789767    64.67   45   2.71   97.396   0.2789767    90.5   40   12.9   91.782   0.2789767    0   0   1   1   0
####   MS   7.43   1000   1   Ground-Based Mech WT   436.6229851    0   0.35   100.625    0.7472535    38.99   45   2.46   100.63   0.7472535    68.1   40   22.6   95.732   0.7472535    0   0   1   1   0
####   MS   13.4   1000   1   Ground-Based Mech WT   595.8891889    0   0.32   99.1033    0.7240199    59.41   45   2.39   99.103   0.7240199    74.3   40   16.7   93.116   0.7240199    0   0   1   1   0
####   MS   0.69   1000   1   Ground-Based Mech WT   485.8987436    0   0.34   90.2447             1   45.69   45   2.25   90.245            1   62.3   40   15.8   95.822            1   0   0   1   1   0
####   MS   2.04   1000   1   Ground-Based Mech WT   230.7925149    0   0.43   86.8355    0.9876512    35.07   45    2.4   86.836   0.9876512    58.4   40   30.5   102.08   0.9876512    0   0   1   1   0
####   MS     14   1000   1   Ground-Based Mech WT   650.1188027    0   0.26   100.463    0.6809927    61.58   45   2.59   100.46   0.6809927    99.9   40   17.4   94.031   0.6809927    0   0   1   1   0
####   MS   2.43   1000   1   Ground-Based Mech WT   453.0978299    0   0.42   93.3979    0.5239398    66.57   45   2.57   93.398   0.5239398    82.1   40   15.1   92.955   0.5239398    0   0   1   1   0
####   MS      6   1000   1   Ground-Based Mech WT   711.2197578    0   0.29   100.862    0.3979381    63.37   45   2.56   100.86   0.3979381    75.8   40   14.9    88.82   0.3979381    0   0   1   1   0
####   MS   10.9   1000   1   Ground-Based Mech WT   528.5220887    0   0.28   102.205    0.5256096    65.94   45   2.41   102.21   0.5256096    88.7   40   20.6   95.325   0.5256096    0   0   1   1   0
####   MS   8.33   1000   1   Ground-Based Mech WT   768.2689431    0   0.28   102.535    0.4092305    72.83   45   2.29   102.53   0.4092305    73.1   40     16   88.844   0.4092305    0   0   1   1   0
####   MS   5.21   1000   1   Ground-Based Mech WT   471.3056501    0   0.28    104.42    0.3336493    64.48   45   2.25   104.42   0.3336493    74.4   40   16.1   92.685   0.3336493    0   0   1   1   0
####   MS   5.36   1000   1   Ground-Based Mech WT   666.2460148    0   0.28   103.858    0.3060376    67.21   45   2.31   103.86   0.3060376    73.9   40   16.5   88.181   0.3060376    0   0   1   1   0
####   MS   13.9   1000   1   Ground-Based Mech WT     559.60963    0   0.29   98.1308    0.6668535    57.45   45   2.39   98.131   0.6668535    88.5   40   19.6   92.555   0.6668535    0   0   1   1   0
####   MS   6.17   1000   1   Ground-Based Mech WT   421.4385978    0   0.33   99.0522    0.5107078    36.46   45   2.43   99.052   0.5107078    61.1   40   17.1   92.205   0.5107078    0   0   1   1   0
####   MS   5.83   1000   1   Ground-Based Mech WT   708.3516666    0   0.29   101.716     0.416761    60.94   45   2.53   101.72    0.416761    82.2   40   18.6   88.515    0.416761    0   0   1   1   0
####   MS   6.67   1000   1   Ground-Based Mech WT   601.7998415    0   0.27    101.86    0.5410117    70.39   45   2.34   101.86   0.5410117    77.8   40   17.7   92.263   0.5410117    0   0   1   1   0
####   MS   7.29   1000   1   Ground-Based Mech WT   703.5002033    0   0.26   102.849    0.4409468    53.12   45   2.47   102.85   0.4409468    76.7   40   18.4   91.549   0.4409468    0   0   1   1   0
####   MS   6.39   1000   1   Ground-Based Mech WT   650.5281394    0   0.23   102.158    0.7971467    48.13   45   2.37   102.16   0.7971467    66.9   40   23.1   98.368   0.7971467    0   0   1   1   0
####   MS   0.79   1000   1   Ground-Based Mech WT   236.8915488    0   0.33   90.8228     0.734823    27.75   45   2.17   90.823    0.734823    67.9   40   19.8   93.153    0.734823    0   0   1   1   0
####   MS   5.33   1000   1   Ground-Based Mech WT   711.3747981    0    0.3   101.593    0.3882833    66.17   45   2.48   101.59   0.3882833    83.6   40   14.6   89.617   0.3882833    0   0   1   1   0
####   MS   2.78   1000   1   Ground-Based Mech WT   479.1451759    0   0.33   102.196    0.7860707    47.92   45   2.19    102.2   0.7860707    64.5   40   21.8   94.847   0.7860707    0   0   1   1   0
####   MS   3.82   1000   1   Ground-Based Mech WT    561.570545    0   0.27   102.619    0.5416155     66.1   45   2.36   102.62   0.5416155    77.6   40   20.6   94.754   0.5416155    0   0   1   1   0
####   MS   6.45   1000   1   Ground-Based Mech WT   393.7277286    0   0.33   103.511    0.3075961    53.59   45   2.32   103.51   0.3075961    72.1   40   15.4   91.054   0.3075961    0   0   1   1   0
####   MS   7.11   1000   1   Ground-Based Mech WT   549.2155781    0   0.26   96.8723    0.6962131    51.84   45    2.3   96.872   0.6962131      73   40   17.6   94.409   0.6962131    0   0   1   1   0
####   MS   8.94   1000   1   Ground-Based Mech WT   584.6238322    0   0.28   100.208    0.7162752    49.55   45    2.3   100.21   0.7162752    81.9   40   17.8   91.678   0.7162752    0   0   1   1   0
####   MS     12   1000   1   Ground-Based Mech WT   769.5195373    0   0.25   103.508    0.4373375    95.65   45   2.29   103.51   0.4373375    76.4   40   13.4   90.909   0.4373375    0   0   1   1   0
####   MS   7.03   1000   1   Ground-Based Mech WT   636.8917711    0   0.28   100.563    0.5110137    55.28   45   2.53   100.56   0.5110137    87.2   40   16.7   91.018   0.5110137    0   0   1   1   0
####   MS   4.83   1000   1   Ground-Based Mech WT   734.0007246    0   0.28   102.941    0.4800192    64.44   45   2.25   102.94   0.4800192    68.9   40     14   89.857   0.4800192    0   0   1   1   0
####   MS   4.01   1000   1   Ground-Based Mech WT   656.3230844    0   0.26   102.721    0.4484049     60.9   45   2.25   102.72   0.4484049    68.4   40   18.7    90.13   0.4484049    0   0   1   1   0
####   MS   4.41   1000   1   Ground-Based Mech WT   723.9450903    0    0.3   103.074    0.6375048    79.36   45   2.23   103.07   0.6375048    84.9   40   16.9   92.952   0.6375048    0   0   1   1   0
####   MS    9.3   1000   1   Ground-Based Mech WT   595.0477011    0   0.31    101.13    0.8065035    57.95   45   2.08   101.13   0.8065035    61.1   40   13.5    91.72   0.8065035    0   0   1   1   0
####   MS   5.57   1000   1   Ground-Based Mech WT   515.8459565    0   0.34   100.639    0.4925347    61.97   45    2.6   100.64   0.4925347      76   40   14.7   94.482   0.4925347    0   0   1   1   0
####   MS   5.39   1000   1   Ground-Based Mech WT   550.9200397    0   0.37   98.8694    0.4361188    61.24   45   2.53   98.869   0.4361188    77.1   40   18.8   91.332   0.4361188    0   0   1   1   0
####   MS   4.27   1000   1   Ground-Based Mech WT   504.6759769    0   0.27   105.523    0.5612614    63.16   45   2.17   105.52   0.5612614    62.5   40     14    90.75   0.5612614    0   0   1   1   0
####   MS   7.88   1000   1   Ground-Based Mech WT   775.1695547    0   0.23    103.27    0.5516128    64.03   45   2.09   103.27   0.5516128    73.6   40   13.3   90.847   0.5516128    0   0   1   1   0
####   MS   10.2   1000   1   Ground-Based Mech WT    829.813504    0   0.26   103.584    0.6180523    74.16   45   2.12   103.58   0.6180523      69   40     16   97.578   0.6180523    0   0   1   1   0
####   MS      1   1000   1   Ground-Based Mech WT   113.5507261    0   0.25   94.6985             1   19.33   45      2   94.698            1   57.8   40   20.1    93.59            1   0   0   1   1   0
####   MS   3.92   1000   1   Ground-Based Mech WT   771.7294016    0    0.3   103.228    0.5325231    62.86   45   2.35   103.23   0.5325231    72.1   40   16.1   90.739   0.5325231    0   0   1   1   0
####   MS   3.44   1000   1   Ground-Based Mech WT   668.5080801    0   0.34   101.981    0.4095782    74.23   45   2.41   101.98   0.4095782    94.8   40   20.8   89.776   0.4095782    0   0   1   1   0
####   MS   0.93   1000   1   Ground-Based Mech WT   254.2204888    0   0.38    89.373             1   35.93   45   2.62   89.373            1   66.7   40   28.1   90.937            1   0   0   1   1   0
####   MS    7.2   1000   1   Ground-Based Mech WT   641.3709267    0    0.3   100.044    0.5700128    61.77   45   2.47   100.04   0.5700128      82   40     18   92.213   0.5700128    0   0   1   1   0
####   MS   8.62   1000   1   Ground-Based Mech WT   602.2596408    0   0.32    99.193    0.3219989    61.65   45   2.67   99.193   0.3219989    79.7   40   20.2   87.838   0.3219989    0   0   1   1   0
####   MS   4.84   1000   1   Ground-Based Mech WT    365.963903    0   0.34   98.5584    0.4201083    54.94   45   2.59   98.558   0.4201083    75.8   40   14.7   90.716   0.4201083    0   0   1   1   0
####   MS   4.33   1000   1   Ground-Based Mech WT              0   0      0          0   0.6331964    5.352   45   1.07   114.53   0.6331964      24   40   14.4   112.92   0.6331964    0   0   1   1   0
####   MS   8.74   1000   1   Ground-Based Mech WT   435.5030891    0   0.36   94.6536     0.811383    48.52   45   2.32   94.654    0.811383    78.6   40   20.3   89.563    0.811383    0   0   1   1   0
####   MS     11   1000   1   Ground-Based Mech WT   437.0799099    0   0.34   93.1797    0.8887418    42.42   45   2.29    93.18   0.8887418    77.5   40   16.6   90.971   0.8887418    0   0   1   1   0
####   MS   12.9   1000   1   Ground-Based Mech WT    695.200306    0   0.23   101.287    0.5626376    71.54   45   2.23   101.29   0.5626376    79.2   40   14.1   90.494   0.5626376    0   0   1   1   0
####   MS   10.7   1000   1   Ground-Based Mech WT   654.5999631    0   0.26   103.365    0.6758182     53.5   45      2   103.37   0.6758182    68.6   40   14.1   90.995   0.6758182    0   0   1   1   0
####   MS   1.25   1000   1   Ground-Based Mech WT   98.77302464    0   0.22   94.1984    0.9825613    22.62   45   2.25   94.198   0.9825613    81.4   40   25.5   95.561   0.9825613    0   0   1   1   0
####   MS   7.43   1000   1   Ground-Based Mech WT   676.5813113    0   0.22   94.9189    0.6390358    36.97   45   2.44   94.919   0.6390358    66.6   40   17.4   95.357   0.6390358    0   0   1   1   0
####   MS      5   1000   1   Ground-Based Mech WT    389.674617    0    0.3   104.518    0.4792694    55.01   45   2.25   104.52   0.4792694    70.3   40   15.1   91.899   0.4792694    0   0   1   1   0
####   MS   13.7   1000   1   Ground-Based Mech WT   271.2386537    0   0.38   95.6781    0.9895753    25.82   45   2.58   95.678   0.9895753    57.3   40   29.9   99.237   0.9895753    0   0   1   1   0
####   MS   2.67   1000   1   Ground-Based Mech WT   202.6236945    0    0.3   94.7744    0.8498985    43.01   45   2.75   94.774   0.8498985      86   40   18.1   91.861   0.8498985    0   0   1   1   0
####   MS   5.76   1000   1   Ground-Based Mech WT   583.8858001    0   0.32   101.216     0.359824    77.12   45   2.35   101.22    0.359824    78.9   40   18.9   89.775    0.359824    0   0   1   1   0
####   MS   6.72   1000   1   Ground-Based Mech WT   736.3259414    0   0.25   101.139    0.4942433    48.14   45   2.18   101.14   0.4942433    81.7   40   16.4   89.809   0.4942433    0   0   1   1   0
####   MS   10.5   1000   1   Ground-Based Mech WT   420.3316287    0    0.3   102.342    0.5419338     65.9   45   2.45   102.34   0.5419338    79.8   40   18.9   91.634   0.5419338    0   0   1   1   0
####   MS   7.25   1000   1   Ground-Based Mech WT   549.4510998    0   0.27   100.933    0.5201074    59.96   45   2.45   100.93   0.5201074      88   40   17.6   89.635   0.5201074    0   0   1   1   0
####   MS   13.7   1000   1   Ground-Based Mech WT   712.6354227    0   0.29   101.158    0.5920826    64.35   45   2.25   101.16   0.5920826    87.1   40   17.9   91.657   0.5920826    0   0   1   1   0
####   MS   10.1   1000   1   Ground-Based Mech WT   291.3422214    0    0.3   103.412    0.9421455    49.24   45   2.12   103.41   0.9421455    58.1   40   25.1   98.145   0.9421455    0   0   1   1   0
####   NC   6.45   1000   1   Ground-Based Mech WT   492.8711416    0   0.25   95.3346    0.7074993    49.62   45   2.71   95.335   0.7074993      96   40     20   88.197   0.7074993    0   0   1   1   0
####   NC   21.1   1000   1   Ground-Based Mech WT   845.9566078    0   0.27    90.632    0.7391358     63.6   45   2.83   90.632   0.7391358    95.9   40   18.7   84.946   0.7391358    0   0   1   1   0
####   NC   25.2   1000   1   Ground-Based Mech WT   603.4869442    0   0.57   81.2848    0.7872014    64.12   45   2.73   81.285   0.7872014     117   40   16.7   87.536   0.7872014    0   0   1   1   0
####   NC   6.48   1000   1   Ground-Based Mech WT   599.2751853    0   0.25   101.788    0.5807707    56.59   45   2.31   101.79   0.5807707    86.4   40   16.8   89.523   0.5807707    0   0   1   1   0
####   NC   39.9   1000   1   Ground-Based Mech WT   273.4449487    0   0.44   86.3631     0.843122    46.84   45   3.03   86.363    0.843122     123   40     19   89.156    0.843122    0   0   1   1   0
####   NC   33.9   1000   1   Ground-Based Mech WT   332.0828073    0   0.43   94.7209    0.8726127    44.31   45   2.84   94.721   0.8726127     134   40     22   91.276   0.8726127    0   0   1   1   0
####   NC   0.36   1000   1   Ground-Based Mech WT   679.7739945    0   0.27   99.8009    0.3117765     60.2   45   2.58   99.801   0.3117765    81.6   40   20.8   87.447   0.3117765    0   0   1   1   0
####   NC   0.93   1000   1   Ground-Based Mech WT   610.0900429    0   0.31   97.8619    0.5673987     51.7   45   2.68   97.862   0.5673987     103   40     19   89.925   0.5673987    0   0   1   1   0
####   NC   0.64   1000   1   Ground-Based Mech WT   721.8519309    0   0.32   97.8507    0.3695011     66.5   45   2.57   97.851   0.3695011      85   40   13.4   88.024   0.3695011    0   0   1   1   0
####   NC   0.66   1000   1   Ground-Based Mech WT   462.5182707    0    0.3   101.437    0.3810543    52.23   45   2.25   101.44   0.3810543    89.6   40   13.4   88.902   0.3810543    0   0   1   1   0
####   NC   36.3   1000   1   Ground-Based Mech WT    418.659776    0   0.36   91.9281    0.8797768    48.49   45   2.75   91.928   0.8797768     108   40   25.6   90.759   0.8797768    0   0   1   1   0
####   NC   21.4   1000   1   Ground-Based Mech WT   619.4616285    0   0.38   93.8799    0.7226439     72.6   45   2.74    93.88   0.7226439    94.9   40   19.4   86.828   0.7226439    0   0   1   1   0
####   NC   8.86   1000   1   Ground-Based Mech WT   563.6006924    0   0.38   93.3599    0.6750369     78.9   45   3.18    93.36   0.6750369     121   40   18.4   89.644   0.6750369    0   0   1   1   0
####   NC   35.9   1000   1   Ground-Based Mech WT   640.4790791    0   0.35   93.5315    0.6935993    63.97   45   2.84   93.531   0.6935993     118   40   19.3   86.506   0.6935993    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   557.8075519    0   0.38   93.5424    0.6447106    83.72   45   2.67   93.542   0.6447106     121   40   17.8    93.19   0.6447106    0   0   1   1   0
####   NC   0.29   1000   1   Ground-Based Mech WT   519.6250905    0   0.24   95.5932    0.3314484    37.64   45   2.17   95.593   0.3314484    67.8   40   16.5   85.885   0.3314484    0   0   1   1   0
####   NC      8   1000   1   Ground-Based Mech WT   439.8635999    0   0.36   94.6786     0.803044    53.91   45   2.84   94.679    0.803044     102   40   21.4   88.548    0.803044    0   0   1   1   0
####   NC   10.9   1000   1   Ground-Based Mech WT   568.3228492    0   0.31   99.0782    0.7657393    48.27   45   2.38   99.078   0.7657393    92.6   40   18.9   87.077   0.7657393    0   0   1   1   0
####   NC   3.78   1000   1   Ground-Based Mech WT   819.6538394    0   0.25   99.1356    0.5581046    57.59   45   2.54   99.136   0.5581046    91.2   40   17.3   88.175   0.5581046    0   0   1   1   0
####   NC     34   1000   1   Ground-Based Mech WT   413.2407863    0   0.33   93.2643    0.7475412    56.34   45   2.89   93.264   0.7475412     130   40   20.6   88.159   0.7475412    0   0   1   1   0
####   NC      1   1000   1   Ground-Based Mech WT   624.7585163    0   0.33   99.1655    0.4268001    93.97   45   2.57   99.166   0.4268001     127   40   12.8   92.206   0.4268001    0   0   1   1   0
####   NC   46.2   1000   1   Ground-Based Mech WT   321.8086058    0   0.46   95.0741    0.9068786    57.96   45   2.47   95.074   0.9068786     117   40     18    89.14   0.9068786    0   0   1   1   0
####   NC   13.8   1000   1   Ground-Based Mech WT   464.0541712    0   0.31   96.0124    0.7370465    53.27   45   2.56   96.012   0.7370465    92.1   40   15.7   89.324   0.7370465    0   0   1   1   0
####   NC   0.43   1000   1   Ground-Based Mech WT   623.1803207    0   0.29   99.3432    0.5952066    59.28   45   2.39   99.343   0.5952066      88   40   15.9   89.375   0.5952066    0   0   1   1   0
####   NC   0.07   1000   1   Ground-Based Mech WT   603.7940676    0   0.29   97.6308    0.3851526    63.32   45   2.51   97.631   0.3851526    95.3   40   20.6   87.394   0.3851526    0   0   1   1   0
####   NC   1.76   1000   1   Ground-Based Mech WT   449.8526359    0   0.24    99.756    0.4286587    37.25   45   2.63   99.756   0.4286587    75.8   40   19.1   89.606   0.4286587    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   683.4567958    0   0.39    102.02    0.6104933    86.31   45   2.09   102.02   0.6104933    68.5   40   20.3    90.09   0.6104933    0   0   1   1   0
####   NC   0.22   1000   1   Ground-Based Mech WT   421.2093817    0   0.46   95.7029    0.3623403    99.06   45    2.1   95.703   0.3623403     122   40   14.2   84.829   0.3623403    0   0   1   1   0
####   NC   9.14   1000   1   Ground-Based Mech WT   586.3481043    0   0.31       95.5   0.6277253    56.53   45   2.64     95.5   0.6277253     102   40   19.3   87.649   0.6277253    0   0   1   1   0
####   NC    9.7   1000   1   Ground-Based Mech WT   642.4397927    0   0.31   101.067    0.7411839    112.3   45   2.24   101.07   0.7411839     110   40   17.6   87.953   0.7411839    0   0   1   1   0
####   NC   0.11   1000   1   Ground-Based Mech WT   742.0939208    0   0.29   100.657    0.6120875    63.75   45   2.26   100.66   0.6120875    75.9   40   13.9   90.533   0.6120875    0   0   1   1   0
####   NC   4.82   1000   1   Ground-Based Mech WT   668.9073864    0   0.36   95.3049    0.6544078    38.83   45   2.82   95.305   0.6544078      80   40   24.6   87.715   0.6544078    0   0   1   1   0
####   NC   0.56   1000   1   Ground-Based Mech WT   624.6407778    0   0.27   102.698    0.5213289    62.22   45   2.43    102.7   0.5213289    96.2   40   13.6   89.636   0.5213289    0   0   1   1   0
####   NC   21.8   1000   1   Ground-Based Mech WT   516.2420217    0   0.45   96.6969    0.8138961    64.31   45   2.77   96.697   0.8138961     118   40   23.6   88.578   0.8138961    0   0   1   1   0
####   NC   9.07   1000   1   Ground-Based Mech WT    1038.77767    0   0.28   98.6023    0.5167715    74.49   45   2.71   98.602   0.5167715     108   40   15.7   90.901   0.5167715    0   0   1   1   0
####   NC   10.5   1000   1   Ground-Based Mech WT   519.8710531    0   0.42   92.7111    0.7922113    71.12   45   2.89   92.711   0.7922113     114   40   24.1   92.279   0.7922113    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   521.1437969    0   0.33   96.3941    0.6056873    56.49   45   2.89   96.394   0.6056873     123   40   17.6   89.391   0.6056873    0   0   1   1   0
####   NC   43.1   1000   1   Ground-Based Mech WT    427.166743    0   0.44   95.1358    0.8226742    58.52   45   2.89   95.136   0.8226742     113   40   23.4   92.202   0.8226742    0   0   1   1   0
####   NC   3.33   1000   1   Ground-Based Mech WT   822.2931579    0   0.22   97.1829    0.5558148    56.32   45   2.77   97.183   0.5558148    83.3   40   17.1   87.795   0.5558148    0   0   1   1   0
####   NC   0.36   1000   1   Ground-Based Mech WT   761.1736527    0   0.32   97.5312    0.7720235    43.87   45   2.51   97.531   0.7720235    76.5   40   17.8   90.498   0.7720235    0   0   1   1   0
####   NC   7.82   1000   1   Ground-Based Mech WT   611.0501726    0   0.43   92.0128    0.7985751    56.27   45   2.94   92.013   0.7985751     132   40   21.8   87.788   0.7985751    0   0   1   1   0
####   NC      1   1000   1   Ground-Based Mech WT   894.5325762    0   0.27   102.145    0.6974044    71.31   45   2.31   102.14   0.6974044    81.9   40   16.3   92.425   0.6974044    0   0   1   1   0
####   NC   4.68   1000   1   Ground-Based Mech WT   790.3049089    0   0.27   103.623    0.3685541     61.7   45   2.26   103.62   0.3685541    81.4   40     18   88.934   0.3685541    0   0   1   1   0
####   NC   40.8   1000   1   Ground-Based Mech WT   328.5609858    0   0.44   90.1077    0.9312687    49.08   45    3.2   90.108   0.9312687     119   40   26.4   92.729   0.9312687    0   0   1   1   0
####   NC   29.2   1000   1   Ground-Based Mech WT   352.4612019    0   0.36   93.1691    0.9065414    49.71   45   2.65   93.169   0.9065414     115   40   22.7   91.886   0.9065414    0   0   1   1   0
####   NC   1.48   1000   1   Ground-Based Mech WT   636.5962035    0   0.36     99.35    0.6389587    78.68   45   2.59    99.35   0.6389587    84.7   40   17.7   99.695   0.6389587    0   0   1   1   0
####   NC   3.41   1000   1   Ground-Based Mech WT   543.4159032    0   0.27   103.013    0.3517556    43.56   45    2.5   103.01   0.3517556    80.5   40   19.5   90.582   0.3517556    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   569.7145916    0   0.24   99.0932    0.3820822    45.96   45      2   99.093   0.3820822      54   40   18.3   85.913   0.3820822    0   0   1   1   0
####   NC   11.5   1000   1   Ground-Based Mech WT   476.0450664    0   0.36    93.017    0.9201547    58.67   45   2.85   93.017   0.9201547    99.9   40   18.9   87.652   0.9201547    0   0   1   1   0
####   NC   39.1   1000   1   Ground-Based Mech WT   227.5884029    0   0.47   94.1229    0.8212539    54.29   45   2.88   94.123   0.8212539     120   40     23   89.545   0.8212539    0   0   1   1   0
####   NC   2.08   1000   1   Ground-Based Mech WT    710.868877    0   0.28   102.132    0.5753686    62.79   45   2.35   102.13   0.5753686    86.5   40   17.6    89.52   0.5753686    0   0   1   1   0
####   NC   0.52   1000   1   Ground-Based Mech WT   573.5870121    0   0.28   95.1782    0.2981649    39.03   45   2.71   95.178   0.2981649    94.6   40   18.1   85.822   0.2981649    0   0   1   1   0
####   NC   3.46   1000   1   Ground-Based Mech WT   806.1884977    0   0.23   95.2554    0.4423941    54.87   45   2.57   95.255   0.4423941    81.3   40     18   88.362   0.4423941    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   728.5520906    0   0.29   98.9582    0.5301738    61.03   45   2.67   98.958   0.5301738    92.5   40     17   94.052   0.5301738    0   0   1   1   0
####   NC   9.79   1000   1   Ground-Based Mech WT   839.3750096    0    0.3   99.4035    0.6363099    51.76   45   2.46   99.404   0.6363099    99.2   40   19.1   88.305   0.6363099    0   0   1   1   0
####   NC   34.1   1000   1   Ground-Based Mech WT   519.3784104    0   0.34   98.1693    0.7815638     52.8   45    2.6   98.169   0.7815638     109   40     19   89.008   0.7815638    0   0   1   1   0
####   NC   39.8   1000   1   Ground-Based Mech WT    292.847027    0   0.38   91.9047    0.9081072    50.08   45   3.02   91.905   0.9081072     115   40   25.4   92.295   0.9081072    0   0   1   1   0
####   NC   44.9   1000   1   Ground-Based Mech WT    382.893774    0   0.39    98.231    0.8569881    46.66   45   2.65   98.231   0.8569881    97.5   40   29.1   89.622   0.8569881    0   0   1   1   0
####   NC   0.59   1000   1   Ground-Based Mech WT    613.375108    0   0.28   97.8168    0.6013991    60.63   45   2.84   97.817   0.6013991     102   40   18.1   89.992   0.6013991    0   0   1   1   0
####   NC   7.95   1000   1   Ground-Based Mech WT   561.5937724    0   0.39   96.0939     0.678096    46.01   45   2.51   96.094    0.678096    91.4   40   19.2   86.633    0.678096    0   0   1   1   0
####   NC   40.3   1000   1   Ground-Based Mech WT   415.0671099    0    0.4   89.2311    0.9684243       52   45   2.78   89.231   0.9684243     106   40   25.9   94.566   0.9684243    0   0   1   1   0
####   NC   8.87   1000   1   Ground-Based Mech WT   766.7232066    0   0.27    97.329    0.5819343    62.61   45   2.63   97.329   0.5819343     101   40   15.9   89.038   0.5819343    0   0   1   1   0
####   NC   4.84   1000   1   Ground-Based Mech WT   636.1160724    0   0.27   100.875    0.4306103    55.52   45   2.51   100.88   0.4306103     103   40   16.6   89.119   0.4306103    0   0   1   1   0
####   NC   1.44   1000   1   Ground-Based Mech WT   850.7819297    0   0.25   99.2285       0.49854   59.46   45    2.5   99.229      0.49854    104   40   15.7   90.312      0.49854   0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   725.6403484    0   0.26   99.3071    0.2716302    47.62   45   2.49   99.307   0.2716302    97.9   40   11.2    91.88   0.2716302    0   0   1   1   0
####   NC    2.2   1000   1   Ground-Based Mech WT   740.1301794    0   0.29   102.464    0.5163573    82.77   45    2.4   102.46   0.5163573    90.4   40   13.5   91.297   0.5163573    0   0   1   1   0
####   NC    1.4   1000   1   Ground-Based Mech WT   679.3175039    0   0.26   101.863    0.4000855    62.66   45   2.23   101.86   0.4000855    79.7   40   14.4   88.553   0.4000855    0   0   1   1   0
####   NC   3.96   1000   1   Ground-Based Mech WT   521.4829082    0   0.25   100.657    0.5821294    55.93   45   2.48   100.66   0.5821294    82.6   40   19.6    88.22   0.5821294    0   0   1   1   0
####   NC   0.04   1000   1   Ground-Based Mech WT    661.637316    0    0.3   97.8076    0.4308048     63.7   45   2.61   97.808   0.4308048     107   40   15.7   86.727   0.4308048    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   623.1547523    0   0.47    97.807    0.3870691    69.33   45   2.66   97.807   0.3870691     102   40   11.9   92.482   0.3870691    0   0   1   1   0
####   NC    0.3   1000   1   Ground-Based Mech WT   682.9009124    0   0.25    98.365     0.385764    56.79   45    2.3   98.365    0.385764    79.9   40   13.3   90.348    0.385764    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   774.3105048    0   0.33   94.3118    0.4647862    90.59   45   2.81   94.312   0.4647862     157   40   16.9   88.879   0.4647862    0   0   1   1   0
####   NC   7.09   1000   1   Ground-Based Mech WT   661.1120614    0   0.28   99.1473    0.6758277    41.53   45   2.38   99.147   0.6758277      89   40   16.8   86.942   0.6758277    0   0   1   1   0
####   NC   0.18   1000   1   Ground-Based Mech WT   523.0697951    0   0.28   100.262    0.4948819    59.78   45   2.41   100.26   0.4948819     108   40     18   93.456   0.4948819    0   0   1   1   0
####   NC   32.8   1000   1   Ground-Based Mech WT   486.3522773    0   0.37   95.2039    0.7889366    55.84   45   2.51   95.204   0.7889366    75.1   40   19.6   93.778   0.7889366    0   0   1   1   0
####   NC   12.5   1000   1   Ground-Based Mech WT   731.5717315    0   0.35   95.0376    0.8107765    51.79   45   2.68   95.038   0.8107765    89.8   40   20.3   89.915   0.8107765    0   0   1   1   0
####   NC   7.55   1000   1   Ground-Based Mech WT   546.5076899    0   0.31   102.314     0.357578    56.16   45   2.51   102.31    0.357578    79.8   40   13.8     91.2    0.357578    0   0   1   1   0
####   NC   0.48   1000   1   Ground-Based Mech WT   705.6513123    0    0.3   97.9763    0.5711605    50.59   45   2.46   97.976   0.5711605    77.7   40   16.2   90.139   0.5711605    0   0   1   1   0
####   NC     11   1000   1   Ground-Based Mech WT   650.4868263    0   0.32   92.9683    0.7261191    50.73   45   2.92   92.968   0.7261191     101   40     19   86.352   0.7261191    0   0   1   1   0
####   NC   7.26   1000   1   Ground-Based Mech WT   430.3565854    0   0.34   92.8206     0.673481    47.65   45   2.89   92.821    0.673481     112   40   22.5   87.361    0.673481    0   0   1   1   0
####   NC   23.8   1000   1   Ground-Based Mech WT   544.9785316    0    0.3   99.6221    0.6271689    67.88   45   2.34   99.622   0.6271689     101   40   15.8   90.238   0.6271689    0   0   1   1   0
####   NC   1.02   1000   1   Ground-Based Mech WT   896.5271169    0   0.23   103.617    0.5269818    59.79   45   2.13   103.62   0.5269818    80.6   40   13.5   89.206   0.5269818    0   0   1   1   0
####   NC   2.29   1000   1   Ground-Based Mech WT   429.8128773    0   0.34   104.273    0.2889342    50.65   45   2.55   104.27   0.2889342    68.9   40   13.9   92.106   0.2889342    0   0   1   1   0
####   NC   9.52   1000   1   Ground-Based Mech WT   677.8682301    0   0.26   98.6471     0.563074    77.73   45    2.4   98.647    0.563074    90.9   40   13.9   88.034    0.563074    0   0   1   1   0
####   NC   17.7   1000   1   Ground-Based Mech WT   697.1430408    0   0.35   92.8082    0.7613172    60.99   45   3.01   92.808   0.7613172     121   40   17.8   86.829   0.7613172    0   0   1   1   0
####   NC   22.3   1000   1   Ground-Based Mech WT   681.9973718    0   0.38   92.1675     0.790423    54.38   45   3.04   92.167    0.790423     113   40   20.2   87.553    0.790423    0   0   1   1   0
####   NC   51.4   1000   1   Ground-Based Mech WT   700.0381525    0   0.39   94.2344    0.8075735    73.68   45   2.53   94.234   0.8075735     106   40   20.4   87.756   0.8075735    0   0   1   1   0
####   NC   37.8   1000   1   Ground-Based Mech WT   324.6860665    0   0.47    92.441    0.7935245    61.88   45   2.91   92.441   0.7935245     129   40   22.7   88.328   0.7935245    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   732.1072241    0   0.35   90.5894    0.4766684    89.26   45    2.5   90.589   0.4766684    95.8   40   14.2   87.393   0.4766684    0   0   1   1   0
####   NC    7.2   1000   1   Ground-Based Mech WT    546.135945    0   0.33   96.3321    0.8721741    62.44   45   2.49   96.332   0.8721741    90.2   40   18.9   89.331   0.8721741    0   0   1   1   0
####   NC   6.78   1000   1   Ground-Based Mech WT   750.4058348    0   0.35   97.0724    0.5882369    68.04   45    2.9   97.072   0.5882369     114   40   19.7   88.683   0.5882369    0   0   1   1   0
####   NC   4.06   1000   1   Ground-Based Mech WT   629.2492671    0   0.37   98.7383    0.5885921    58.11   45   2.52   98.738   0.5885921    94.2   40   21.2    88.09   0.5885921    0   0   1   1   0
####   NC   4.93   1000   1   Ground-Based Mech WT   989.9739009    0   0.21   102.444    0.4908177    71.28   45   2.28   102.44   0.4908177    77.7   40   16.7     86.6   0.4908177    0   0   1   1   0
####   NC      0   1000   1   Ground-Based Mech WT   766.2878481    0   0.32   98.4167    0.4812209       66   45   2.17   98.417   0.4812209    95.4   40   20.2   91.443   0.4812209    0   0   1   1   0
####   NC   38.6   1000   1   Ground-Based Mech WT   351.8387244    0   0.44   93.7193     0.934509    54.24   45   2.37   93.719    0.934509     148   40   18.1   90.031    0.934509    0   0   1   1   0
####   NC   1.41   1000   1   Ground-Based Mech WT   676.4682836    0   0.27   101.541    0.5207604    55.97   45   2.43   101.54   0.5207604    88.2   40   16.8   91.307   0.5207604    0   0   1   1   0
####   NC     28   1000   1   Ground-Based Mech WT   577.7253328    0   0.34   92.5992    0.8247345    59.62   45   2.76   92.599   0.8247345     112   40   20.5   87.085   0.8247345    0   0   1   1   0
####   NC   0.53   1000   1   Ground-Based Mech WT   1049.590631    0   0.29   102.218    0.4908405    47.84   45   2.34   102.22   0.4908405    75.4   40   23.8   90.568   0.4908405    0   0   1   1   0
####   NC   10.6   1000   1   Ground-Based Mech WT    775.762362    0   0.33   91.0924    0.8346451    43.54   45   3.17   91.092   0.8346451    86.3   40   18.2   89.443   0.8346451    0   0   1   1   0
####   NC   43.8   1000   1   Ground-Based Mech WT   316.4695998    0   0.37   90.0735    0.8895111    55.77   45   2.87   90.074   0.8895111     120   40   21.9   92.091   0.8895111    0   0   1   1   0
####   OK   19.6   1000   1   Ground-Based Mech WT   498.1551667    0   0.26   124.529    0.9528418    36.83   45   2.03   124.53   0.9528418    80.1   40   11.2   128.35   0.9528418    0   0   1   1   0
####   OK    4.5   1000   1   Ground-Based Mech WT   372.4703125    0   0.36   132.528    0.7292182     57.3   45   1.57   132.53   0.7292182    64.4   40   8.32   131.43   0.7292182    0   0   1   1   0
####   OK   6.38   1000   1   Ground-Based Mech WT   405.5298077    0   0.35   143.963    0.9826424    40.71   45   1.62   143.96   0.9826424    60.8   40   9.35   140.86   0.9826424    0   0   1   1   0
####   OK   11.4   1000   1   Ground-Based Mech WT   394.9507692    0   0.41   114.812    0.9238498    52.92   45   2.03   114.81   0.9238498    70.3   40     11   120.07   0.9238498    0   0   1   1   0
####   OK   3.06   1000   1   Ground-Based Mech WT   369.3595714    0   0.27   132.388    0.7510376    33.61   45   1.77   132.39   0.7510376    58.5   40   10.7   125.43   0.7510376    0   0   1   1   0
####   OK      3   1000   1   Ground-Based Mech WT   234.4831358    0   0.23   156.189    0.9950789    50.17   45   1.21   156.19   0.9950789    63.2   40   11.9   130.43   0.9950789    0   0   1   1   0
####   OK   17.8   1000   1   Ground-Based Mech WT   593.0873438    0   0.26    120.92    0.9598832    33.26   45   1.96   120.92   0.9598832    61.3   40   9.38   133.08   0.9598832    0   0   1   1   0
####   OK   11.8   1000   1   Ground-Based Mech WT   434.6548148    0   0.42   108.654    0.8238849    69.71   45   1.99   108.65   0.8238849    66.9   40   10.5   114.86   0.8238849    0   0   1   1   0
####   OK   15.8   1000   1   Ground-Based Mech WT   436.8520588    0   0.42    115.94    0.4750788    63.09   45   1.77   115.94   0.4750788    82.5   40   7.42   112.31   0.4750788    0   0   1   1   0
####   OK   12.8   1000   1   Ground-Based Mech WT   540.2323544    0   0.42   102.573    0.5113654    77.81   45   2.18   102.57   0.5113654    85.5   40   9.31   101.43   0.5113654    0   0   1   1   0
####   OK   10.5   1000   1   Ground-Based Mech WT   586.3358097    0   0.34   118.889    0.3911199     79.2   45    1.9   118.89   0.3911199    78.2   40   9.27   104.77   0.3911199    0   0   1   1   0
####   OK   3.05   1000   1   Ground-Based Mech WT    401.667619    0   0.33   126.732    0.9809466    61.81   45   1.56   126.73   0.9809466    63.9   40   7.15    154.6   0.9809466    0   0   1   1   0
####   OK   19.6   1000   1   Ground-Based Mech WT   382.0208333    0   0.33   106.365    0.9316857     36.8   45    2.3   106.36   0.9316857    73.8   40   12.3   121.12   0.9316857    0   0   1   1   0
####   OK      4   1000   1   Ground-Based Mech WT        385.077   0   0.39   112.971    0.9961375    51.04   45   1.84   112.97   0.9961375    77.9   40   10.4   114.45   0.9961375    0   0   1   1   0
####   OK   11.9   1000   1   Ground-Based Mech WT   669.1087426    0   0.26   154.728             1   30.54   45   1.84   154.73            1   62.8   40   10.2   142.94            1   0   0   1   1   0
####   OK    9.5   1000   1   Ground-Based Mech WT   451.3723077    0    0.3   145.883    0.7071636    40.57   45   1.24   145.88   0.7071636    55.2   40   8.08   131.16   0.7071636    0   0   1   1   0
####   OK   12.9   1000   1   Ground-Based Mech WT   544.8493852    0   0.43   108.166    0.3847096    84.17   45   2.01   108.17   0.3847096    82.2   40   8.14   101.67   0.3847096    0   0   1   1   0
####   OK   12.8   1000   1   Ground-Based Mech WT   517.0015278    0   0.32   138.204    0.9356214    56.75   45   1.56    138.2   0.9356214    58.9   40   7.69   136.83   0.9356214    0   0   1   1   0
####   SC    8.5   1000   1   Ground-Based Mech WT   791.8599345    0   0.28   99.9022    0.5266982    85.94   45   2.67   99.902   0.5266982     114   40   14.6   89.206   0.5266982    0   0   1   1   0
####   SC   5.54   1000   1   Ground-Based Mech WT   550.4845887    0   0.31   103.697     0.489059    66.76   45   2.37    103.7    0.489059    70.2   40   16.2   89.914    0.489059    0   0   1   1   0
####   SC   1.45   1000   1   Ground-Based Mech WT   424.9666281    0   0.32   100.189    0.5708602    61.99   45   2.52   100.19   0.5708602    88.8   40   19.2    90.62   0.5708602    0   0   1   1   0
####   SC   8.88   1000   1   Ground-Based Mech WT   656.3033817    0   0.27   101.135    0.6781954    70.25   45   2.39   101.13   0.6781954    86.4   40   17.3   89.911   0.6781954    0   0   1   1   0
####   SC   0.28   1000   1   Ground-Based Mech WT   450.8176908    0   0.41   102.892    0.2984957    78.01   45    2.5   102.89   0.2984957     110   40   13.9    89.12   0.2984957    0   0   1   1   0
####   SC   2.96   1000   1   Ground-Based Mech WT   448.0111293    0   0.34   102.147    0.3727561    67.22   45    2.4   102.15   0.3727561    90.8   40   18.5   90.614   0.3727561    0   0   1   1   0
####   SC   0.33   1000   1   Ground-Based Mech WT   529.1212501    0   0.22   98.5245    0.5415163    48.17   45   2.55   98.525   0.5415163     105   40   19.3   89.927   0.5415163    0   0   1   1   0
####   SC   0.59   1000   1   Ground-Based Mech WT   695.5926859    0   0.28   100.799    0.4699552    68.84   45   2.38    100.8   0.4699552    95.9   40   15.3   91.388   0.4699552    0   0   1   1   0
####   SC   4.51   1000   1   Ground-Based Mech WT   672.5644873    0   0.24   101.689     0.487219    44.19   45   2.35   101.69    0.487219    72.9   40   16.2   93.288    0.487219    0   0   1   1   0
####   SC   0.55   1000   1   Ground-Based Mech WT   551.7316394    0   0.29   101.264    0.3909398    62.72   45   2.66   101.26   0.3909398     111   40   15.5   91.259   0.3909398    0   0   1   1   0
####   SC   13.8   1000   1   Ground-Based Mech WT   655.1937933    0   0.33   101.895    0.7298821     72.2   45   2.26    101.9   0.7298821    80.4   40   16.7   90.049   0.7298821    0   0   1   1   0
####   SC   9.94   1000   1   Ground-Based Mech WT   637.1735254    0   0.26   100.796    0.4385697    77.82   45   2.39    100.8   0.4385697    93.7   40   13.8   88.645   0.4385697    0   0   1   1   0
####   SC   3.99   1000   1   Ground-Based Mech WT   608.4722415    0   0.26   105.058    0.4147356    55.38   45   2.13   105.06   0.4147356    72.7   40   16.7   90.541   0.4147356    0   0   1   1   0
####   SC   0.51   1000   1   Ground-Based Mech WT   607.5636898    0   0.32    99.954    0.5163671    76.68   45   2.34   99.954   0.5163671     106   40   13.5   90.718   0.5163671    0   0   1   1   0
####   SC   0.41   1000   1   Ground-Based Mech WT   676.2932913    0   0.32   100.402    0.4458309    72.06   45   2.69    100.4   0.4458309     102   40   16.3   89.117   0.4458309    0   0   1   1   0
####   SC   1.98   1000   1   Ground-Based Mech WT   546.1234477    0   0.31   104.018    0.5723552    74.39   45   2.17   104.02   0.5723552    88.2   40   15.7   89.763   0.5723552    0   0   1   1   0
####   SC   0.23   1000   1   Ground-Based Mech WT   613.3037563    0   0.26   98.6619    0.6498555    50.74   45   2.46   98.662   0.6498555    80.1   40     20   90.858   0.6498555    0   0   1   1   0
####   SC   0.85   1000   1   Ground-Based Mech WT    743.549035    0   0.27   99.5046    0.4612892    70.87   45   2.74   99.505   0.4612892     121   40   14.7   90.294   0.4612892    0   0   1   1   0
####   SC    8.3   1000   1   Ground-Based Mech WT   582.5488126    0   0.27   101.608    0.3932834    66.12   45   2.33   101.61   0.3932834    74.7   40   17.1   88.367   0.3932834    0   0   1   1   0
####   SC   10.3   1000   1   Ground-Based Mech WT   728.9715347    0   0.28   104.743    0.3540997    93.37   45   2.16   104.74   0.3540997    73.5   40   13.5   88.934   0.3540997    0   0   1   1   0
####   SC   0.59   1000   1   Ground-Based Mech WT   593.8196145    0   0.29   103.671    0.4637936    70.91   45   2.22   103.67   0.4637936    95.3   40   16.7    90.61   0.4637936    0   0   1   1   0
####   SC   0.65   1000   1   Ground-Based Mech WT    548.254111    0   0.27   102.752    0.3335097    56.73   45   2.33   102.75   0.3335097    92.9   40   15.6   91.837   0.3335097    0   0   1   1   0
####   SC   13.2   1000   1   Ground-Based Mech WT   580.3352674    0   0.28   95.3294     0.768823    45.17   45   2.55   95.329    0.768823    72.3   40   20.5   87.817    0.768823    0   0   1   1   0
####   SC   8.23   1000   1   Ground-Based Mech WT   518.4192497    0   0.27   99.7092    0.5186663    55.14   45   2.45   99.709   0.5186663    89.8   40   17.5    88.59   0.5186663    0   0   1   1   0
####   SC    0.6   1000   1   Ground-Based Mech WT   469.1007649    0   0.36   100.623    0.4319991    92.94   45   2.64   100.62   0.4319991     107   40   14.7   91.613   0.4319991    0   0   1   1   0
####   SC   0.74   1000   1   Ground-Based Mech WT   598.6276352    0   0.27   97.0114    0.6118085    51.96   45   2.39   97.011   0.6118085    83.8   40   20.4   89.551   0.6118085    0   0   1   1   0
####   SC   0.25   1000   1   Ground-Based Mech WT   385.1072761   0   0.36   99.1924    0.520597    60.73   45   2.95   99.192    0.520597     103   40   21.4   91.697    0.520597    0   0   1   1   0
####   SC   6.28   1000   1   Ground-Based Mech WT   656.0434371   0   0.31   101.312   0.4681583    65.88   45   2.44   101.31   0.4681583    77.6   40   14.1   90.368   0.4681583    0   0   1   1   0
####   SC   10.4   1000   1   Ground-Based Mech WT   656.5044188   0   0.29   102.185   0.5625383     91.4   45    2.3   102.19   0.5625383    85.3   40   12.7   88.428   0.5625383    0   0   1   1   0
####   SC   8.73   1000   1   Ground-Based Mech WT   596.6588326   0   0.29   102.464   0.5895817    69.37   45    2.3   102.46   0.5895817    81.9   40   16.4   90.523   0.5895817    0   0   1   1   0
####   SC    2.1   1000   1   Ground-Based Mech WT   662.2355447   0   0.31   101.735   0.4662981    64.02   45   2.41   101.73   0.4662981     111   40   10.5   92.858   0.4662981    0   0   1   1   0
####   SC   5.07   1000   1   Ground-Based Mech WT   641.7640543   0   0.27   104.273    0.411356    57.43   45   2.43   104.27    0.411356      86   40     15   89.972    0.411356    0   0   1   1   0
####   SC   10.1   1000   1   Ground-Based Mech WT    600.724287   0    0.3   101.078   0.1901773    67.52   45   2.36   101.08   0.1901773     103   40   19.8   86.196   0.1901773    0   0   1   1   0
####   SC   0.62   1000   1   Ground-Based Mech WT   513.1309431   0   0.32   101.011   0.7276309    75.23   45   2.32   101.01   0.7276309     106   40   18.5   91.996   0.7276309    0   0   1   1   0
####   SC   1.07   1000   1   Ground-Based Mech WT   515.6361159   0   0.27    101.52   0.4362915    66.31   45   2.37   101.52   0.4362915    91.5   40   14.1   91.065   0.4362915    0   0   1   1   0
####   SC   7.01   1000   1   Ground-Based Mech WT   661.3590853   0   0.26   101.439   0.4433067    73.95   45    2.4   101.44   0.4433067    93.9   40   17.6   88.703   0.4433067    0   0   1   1   0
####   SC   22.1   1000   1   Ground-Based Mech WT   648.6468219   0   0.34   95.0045   0.5836699    63.07   45   2.75   95.004   0.5836699     102   40     20   88.887   0.5836699    0   0   1   1   0
####   SC   0.85   1000   1   Ground-Based Mech WT   677.0412929   0   0.29   100.486   0.5285611    68.57   45   2.62   100.49   0.5285611     104   40   15.8   90.608   0.5285611    0   0   1   1   0
####   SC   18.6   1000   1   Ground-Based Mech WT    543.436824   0   0.33   96.2714   0.7549468     51.3   45   2.54   96.271   0.7549468    79.8   40   23.7   86.334   0.7549468    0   0   1   1   0
####   SC   6.27   1000   1   Ground-Based Mech WT    766.916969   0   0.29   100.973   0.4238853    63.84   45   2.56   100.97   0.4238853    87.4   40     18   88.578   0.4238853    0   0   1   1   0
####   SC    5.4   1000   1   Ground-Based Mech WT   682.6514503   0   0.31   101.217   0.3874647    67.12   45   2.58   101.22   0.3874647     108   40   16.2   89.919   0.3874647    0   0   1   1   0
####   SC   11.7   1000   1   Ground-Based Mech WT   507.1082589   0   0.29    97.365   0.7439582    51.26   45    2.5   97.365   0.7439582      92   40   21.4   89.362   0.7439582    0   0   1   1   0
####   SC   3.08   1000   1   Ground-Based Mech WT   572.4942995   0   0.37   99.5694   0.5606181     68.6   45   2.51   99.569   0.5606181    91.6   40   15.8   91.623   0.5606181    0   0   1   1   0
####   SC   10.3   1000   1   Ground-Based Mech WT   591.9705385   0   0.29   99.7233   0.6221254    53.98   45   2.41   99.723   0.6221254    84.8   40   19.9   89.772   0.6221254    0   0   1   1   0
####   SC   0.94   1000   1   Ground-Based Mech WT   739.4734708   0   0.25   102.926   0.4507356    51.93   45   2.36   102.93   0.4507356    75.9   40   14.9    91.68   0.4507356    0   0   1   1   0
####   SC   10.5   1000   1   Ground-Based Mech WT   654.2781805   0   0.27   96.4986   0.7097167    59.21   45   2.46   96.499   0.7097167    91.3   40   16.1   89.005   0.7097167    0   0   1   1   0
####   TN   32.9   1000   1   Ground-Based Mech WT   368.6234388   0   0.36   93.1293   0.8821349    46.34   45   2.96   93.129   0.8821349     107   40   26.8   89.453   0.8821349    0   0   1   1   0
####   TN   11.6   1000   1   Ground-Based Mech WT   450.9059134   0   0.36   94.7096   0.9059966    74.13   45   2.59    94.71   0.9059966    99.1   40   21.1   85.557   0.9059966    0   0   1   1   0
####   TN   15.3   1000   1   Ground-Based Mech WT   506.2851511   0   0.29   100.607   0.8829827     55.3   45   2.42   100.61   0.8829827    89.9   40   19.3   90.744   0.8829827    0   0   1   1   0
####   TN     16   1000   1   Ground-Based Mech WT   434.3620254   0   0.34   94.2211   0.9175002    44.76   45   2.71   94.221   0.9175002    80.9   40   18.4   89.137   0.9175002    0   0   1   1   0
####   TN     32   1000   1   Ground-Based Mech WT   387.8793214   0   0.39   90.1489   0.7636386    47.88   45   3.02   90.149   0.7636386     105   40   23.8   87.874   0.7636386    0   0   1   1   0
####   TN   12.3   1000   1   Ground-Based Mech WT   690.4332891   0   0.26   94.9155   0.6462286    44.82   45    2.6   94.915   0.6462286    85.1   40   17.6   87.762   0.6462286    0   0   1   1   0
####   TN   30.8   1000   1   Ground-Based Mech WT   405.0179256   0   0.39   92.2553   0.9453216    40.43   45   2.99   92.255   0.9453216    81.5   40   25.2   92.719   0.9453216    0   0   1   1   0
####   TN   27.8   1000   1   Ground-Based Mech WT   499.4086128   0   0.33   96.8996   0.8854463    54.36   45   2.57     96.9   0.8854463     109   40   13.6    90.08   0.8854463    0   0   1   1   0
####   TN   10.4   1000   1   Ground-Based Mech WT   369.7821698   0   0.31   94.5883   0.8390504    54.29   45   2.88   94.588   0.8390504    99.6   40   22.3   91.809   0.8390504    0   0   1   1   0
####   TN   36.3   1000   1   Ground-Based Mech WT   306.2837809   0   0.42   92.5661   0.8593545    48.58   45   3.05   92.566   0.8593545     111   40   23.4   89.065   0.8593545    0   0   1   1   0
####   TN   26.5   1000   1   Ground-Based Mech WT   308.0447934   0   0.49   91.5323   0.9696933    45.33   45   2.95   91.532   0.9696933    91.3   40   22.6   91.004   0.9696933    0   0   1   1   0
####   TN   10.8   1000   1   Ground-Based Mech WT    537.886974   0   0.32   95.6865   0.7437727    45.66   45   2.57   95.687   0.7437727    88.1   40   19.3   89.987   0.7437727    0   0   1   1   0
####   TN   35.6   1000   1   Ground-Based Mech WT    332.883697   0    0.4   93.6278    0.935648    47.91   45   2.71   93.628    0.935648    89.3   40   20.8   89.385    0.935648    0   0   1   1   0
####   TN   40.3   1000   1   Ground-Based Mech WT    441.052184   0   0.49   90.3137   0.9252379    67.61   45   2.82   90.314   0.9252379     100   40   15.6   89.584   0.9252379    0   0   1   1   0
####   TN   41.1   1000   1   Ground-Based Mech WT   395.5243562   0   0.34   93.1346   0.8295669    46.02   45   2.81   93.135   0.8295669     102   40   25.2   89.359   0.8295669    0   0   1   1   0
####   TN   11.8   1000   1   Ground-Based Mech WT   385.7689092   0   0.35   96.5315   0.9968379    39.96   45   2.84   96.532   0.9968379     104   40   27.5   95.063   0.9968379    0   0   1   1   0
####   TN      6   1000   1   Ground-Based Mech WT   402.4003099   0   0.46   101.575            1   14.74   45   2.25   101.57            1   52.9   40   38.3   98.293            1   0   0   1   1   0
####   TN   14.1   1000   1   Ground-Based Mech WT   382.8845217   0   0.41   94.7088    0.832808    56.27   45   2.74   94.709    0.832808    98.8   40   18.6   87.664    0.832808    0   0   1   1   0
####   TN   26.1   1000   1   Ground-Based Mech WT    400.312045   0   0.38   90.2255   0.9560449    43.21   45   2.87   90.226   0.9560449    84.2   40   19.1   89.275   0.9560449    0   0   1   1   0
####   TN   12.5   1000   1   Ground-Based Mech WT   601.2059347   0   0.27   93.9553   0.9326628    44.64   45   2.74   93.955   0.9326628    77.7   40   18.8   89.074   0.9326628    0   0   1   1   0
####   TN   33.2   1000   1   Ground-Based Mech WT   397.9401046   0   0.26   93.1904   0.9055795    52.27   45   2.65    93.19   0.9055795     103   40   21.3   90.302   0.9055795    0   0   1   1   0
####   TN   21.4   1000   1   Ground-Based Mech WT    418.096569   0   0.35   91.5655   0.9895289    47.78   45   2.83   91.566   0.9895289    88.7   40   20.7   93.756   0.9895289    0   0   1   1   0
####   TN   8.83   1000   1   Ground-Based Mech WT   52.25484318   0   0.72   88.7543            1   37.95   45   2.79   88.754            1   51.6   40   16.3   94.027            1   0   0   1   1   0
####   TN   7.87   1000   1   Ground-Based Mech WT   502.7935573   0   0.29   91.7203   0.7882536     41.4   45   2.44    91.72   0.7882536    64.3   40   19.3   93.873   0.7882536    0   0   1   1   0
####   TN   20.3   1000   1   Ground-Based Mech WT   491.2716018   0    0.3   94.9815   0.8749414    54.98   45   2.78   94.982   0.8749414    90.1   40   20.7   91.601   0.8749414    0   0   1   1   0
####   TN   18.3   1000   1   Ground-Based Mech WT   482.6654929   0   0.38   94.5312   0.9127305    53.15   45   2.61   94.531   0.9127305    84.1   40   17.7   89.187   0.9127305    0   0   1   1   0
####   TN   8.59   1000   1   Ground-Based Mech WT   478.7869853   0   0.29    96.823   0.9812397    47.74   45   2.61   96.823   0.9812397    88.4   40   18.6   92.355   0.9812397    0   0   1   1   0
####   TN   23.2   1000   1   Ground-Based Mech WT   359.0391564   0   0.38   95.8174   0.9509795    46.39   45   2.42   95.817   0.9509795    86.2   40   17.5   90.365   0.9509795    0   0   1   1   0
####   TN   31.7   1000   1   Ground-Based Mech WT   484.5196904   0   0.36   93.2724   0.8883745    44.68   45   2.83   93.272   0.8883745    90.7   40   22.2   88.439   0.8883745    0   0   1   1   0
####   TN   29.8   1000   1   Ground-Based Mech WT   343.5093364   0   0.39   92.7242   0.8608586    53.36   45   2.63   92.724   0.8608586     109   40   20.7   87.842   0.8608586    0   0   1   1   0
####   TN   13.2   1000   1   Ground-Based Mech WT     402.00174   0   0.39   93.0118   0.9018274    51.08   45      3   93.012   0.9018274    84.1   40   16.4   91.616   0.9018274    0   0   1   1   0
####   TN   25.4   1000   1   Ground-Based Mech WT   370.5020771   0   0.44   94.9922   0.7934991    55.87   45   2.72   94.992   0.7934991    61.7   40   20.1    86.28   0.7934991    0   0   1   1   0
####   TN   18.2   1000   1   Ground-Based Mech WT   431.0847752   0   0.47   94.6011   0.8597901     44.8   45   2.77   94.601   0.8597901    85.8   40   22.2    89.55   0.8597901    0   0   1   1   0
####   TN   41.6   1000   1   Ground-Based Mech WT   511.8879036   0   0.37   91.9877   0.9408434     48.7   45   3.04   91.988   0.9408434    80.9   40   17.8   90.388   0.9408434    0   0   1   1   0
####   TN   12.6   1000   1   Ground-Based Mech WT   426.4600577   0   0.29   95.0603   0.7590489    44.47   45   2.32    95.06   0.7590489    70.2   40   19.2   92.873   0.7590489    0   0   1   1   0
####   TN   13.6   1000   1   Ground-Based Mech WT   600.9014356   0   0.33   97.4224   0.8580751    46.79   45   2.39   97.422   0.8580751    71.2   40   19.4   92.153   0.8580751    0   0   1   1   0
####   TN   37.9   1000   1   Ground-Based Mech WT   405.3115836   0   0.33   89.4731   0.9477729    37.66   45   2.86   89.473   0.9477729    96.7   40   21.8    90.01   0.9477729    0   0   1   1   0
####   TN   3.32   1000   1   Ground-Based Mech WT   336.1318015   0    0.4   90.4286   0.9860052    38.04   45   2.25   90.429   0.9860052    81.7   40   21.1   93.197   0.9860052    0   0   1   1   0
####   TN   12.7   1000   1   Ground-Based Mech WT   469.7138429   0   0.37   96.8544    0.763831    48.27   45   2.58   96.854    0.763831    84.8   40   19.6   91.656    0.763831    0   0   1   1   0
####   TN   7.95   1000   1   Ground-Based Mech WT   318.9842247   0   0.41   95.4396   0.9214965    42.96   45    2.6    95.44   0.9214965    99.8   40   21.5   89.822   0.9214965    0   0   1   1   0
####   TN   22.5   1000   1   Ground-Based Mech WT   475.4563173   0   0.35   92.9173   0.9711138    44.33   45   2.65   92.917   0.9711138    87.2   40   20.4   89.916   0.9711138    0   0   1   1   0
####   TN   23.5   1000   1   Ground-Based Mech WT   573.8811469   0   0.37   89.9354   0.9920633    51.36   45   2.74   89.935   0.9920633     102   40   20.5   90.033   0.9920633    0   0   1   1   0
####   TN   23.6   1000   1   Ground-Based Mech WT   467.5277132   0   0.32   94.1839   0.9889348    45.57   45   2.49   94.184   0.9889348    88.9   40   17.9   89.467   0.9889348    0   0   1   1   0
####   TN     41   1000   1   Ground-Based Mech WT   448.0130704   0   0.39   90.8779   0.9541377    50.93   45   2.89   90.878   0.9541377    87.9   40   19.6   89.956   0.9541377    0   0   1   1   0
####   TN   25.5   1000   1   Ground-Based Mech WT   381.5276143   0   0.37   91.6818   0.8802253    34.53   45   2.74   91.682   0.8802253      76   40   23.8   90.232   0.8802253    0   0   1   1   0
####   TN   40.8   1000   1   Ground-Based Mech WT   397.7716638   0   0.54   91.8936   0.8510097    79.25   45   3.03   91.894   0.8510097     128   40   19.8   90.073   0.8510097    0   0   1   1   0
####   TN   20.6   1000   1   Ground-Based Mech WT   306.7434237   0   0.41   91.3374   0.8485608    49.71   45   2.89   91.337   0.8485608    86.7   40   24.4   92.795   0.8485608    0   0   1   1   0
####   TN    2.5   1000   1   Ground-Based Mech WT   641.9027558   0   0.47   87.0385   0.5537197    45.37   45   2.65   87.038   0.5537197    71.9   40   22.2   96.409   0.5537197    0   0   1   1   0
####   TN   11.9   1000   1   Ground-Based Mech WT   324.4895902   0   0.46   94.6628            1   29.48   45   2.61   94.663            1   63.1   40   28.2   99.217            1   0   0   1   1   0
####   TN   15.8   1000   1   Ground-Based Mech WT   627.5693628   0   0.35   94.9721   0.9583943    54.18   45   2.55   94.972   0.9583943    88.3   40   18.6   90.697   0.9583943    0   0   1   1   0
####   TN   21.7   1000   1   Ground-Based Mech WT   444.1308425   0   0.32   94.5916   0.9929854    36.52   45   2.63   94.592   0.9929854    88.2   40   18.7   94.516   0.9929854    0   0   1   1   0
####   TN   23.6   1000   1   Ground-Based Mech WT   388.4842047   0   0.39   97.9409   0.8649156    61.36   45   2.51   97.941   0.8649156    97.4   40   15.6   89.466   0.8649156    0   0   1   1   0
####   TN   15.9   1000   1   Ground-Based Mech WT   236.9985937   0   0.51   95.7506    0.928414    54.86   45   2.63   95.751    0.928414    54.9   40   26.1   92.941    0.928414    0   0   1   1   0
####   TN   18.8   1000   1   Ground-Based Mech WT   452.6683672   0   0.37   99.9972   0.8441255     47.6   45   2.25   99.997   0.8441255    65.7   40   21.4    88.16   0.8441255    0   0   1   1   0
####   TN   13.8   1000   1   Ground-Based Mech WT   620.0573574   0   0.27   97.1935   0.7058105    61.47   45   2.43   97.194   0.7058105    91.3   40   17.5   89.682   0.7058105    0   0   1   1   0
####   TN   26.2   1000   1   Ground-Based Mech WT   477.6294216   0   0.37    94.362   0.9879941    47.43   45   2.59   94.362   0.9879941    78.5   40   24.1   89.824   0.9879941    0   0   1   1   0
####   TN   9.76   1000   1   Ground-Based Mech WT   459.6602371   0   0.31   96.1776   0.8813557    52.04   45   2.46   96.178   0.8813557    93.2   40   19.5   92.714   0.8813557    0   0   1   1   0
####   TN   23.1   1000   1   Ground-Based Mech WT   373.1604461   0   0.39   94.5818   0.8943259    42.02   45   2.92   94.582   0.8943259      88   40   21.7   91.324   0.8943259    0   0   1   1   0
####   TN   11.7   1000   1   Ground-Based Mech WT    387.879282   0   0.39    94.052   0.8618101    60.19   45   2.63   94.052   0.8618101     103   40   16.8   89.435   0.8618101    0   0   1   1   0
####   TN   15.5   1000   1   Ground-Based Mech WT    372.962529   0   0.36   92.5634   0.9709199    46.87   45   2.48   92.563   0.9709199    84.2   40   18.3   91.834   0.9709199    0   0   1   1   0
####   TN   17.8   1000   1   Ground-Based Mech WT   229.5891216   0   0.33    90.473   0.8998933    40.61   45   3.05   90.473   0.8998933    82.2   40   17.3   90.922   0.8998933    0   0   1   1   0
####   TN     36   1000   1   Ground-Based Mech WT   447.1799847   0    0.4   92.2524   0.7162546    58.64   45   2.95   92.252   0.7162546    92.9   40   22.7   87.528   0.7162546    0   0   1   1   0
####   TN     15   1000   1   Ground-Based Mech WT   392.4791387   0   0.45   91.4258   0.9638011    38.55   45   2.75   91.426   0.9638011    88.4   40   20.8   90.506   0.9638011    0   0   1   1   0
####   TN   21.9   1000   1   Ground-Based Mech WT   306.3954664   0   0.48   92.0817   0.9350366    46.01   45   2.92   92.082   0.9350366    91.2   40   16.1   87.088   0.9350366    0   0   1   1   0
####   TN   20.9   1000   1   Ground-Based Mech WT   349.8396377   0   0.45   91.6764   0.8813522     52.9   45   3.03   91.676   0.8813522    87.1   40   22.2   88.566   0.8813522    0   0   1   1   0
####   TN   17.5   1000   1   Ground-Based Mech WT   291.6062778   0   0.38   93.6709   0.8021587    47.36   45   2.61   93.671   0.8021587     100   40   30.4   95.212   0.8021587    0   0   1   1   0
####   TN   27.7   1000   1   Ground-Based Mech WT   379.9675795   0   0.36   90.5492   0.9792181    43.66   45   2.96   90.549   0.9792181     100   40     21   89.598   0.9792181    0   0   1   1   0
####   TN   27.3   1000   1   Ground-Based Mech WT    428.872082   0   0.36   93.4858   0.9752045    44.49   45   2.67   93.486   0.9752045    88.7   40   16.4   88.251   0.9752045    0   0   1   1   0
####   TN   29.9   1000   1   Ground-Based Mech WT   432.3548824   0   0.55    90.323   0.9685703    55.01   45   2.84   90.323   0.9685703     101   40   24.7   91.788   0.9685703    0   0   1   1   0
####   TN     31   1000   1   Ground-Based Mech WT   813.9793878   0   0.37   92.2143   0.5914555    73.71   45   3.01   92.214   0.5914555    98.1   40   20.6   88.077   0.5914555    0   0   1   1   0
####   TN   26.9   1000   1   Ground-Based Mech WT   387.0337091   0   0.37   94.2635   0.9515986     46.5   45   2.64   94.264   0.9515986    97.8   40   23.4   90.705   0.9515986    0   0   1   1   0
####   TN   22.2   1000   1   Ground-Based Mech WT   333.6483071   0   0.43   96.2806   0.8822954    56.05   45   2.26   96.281   0.8822954    85.4   40   23.6   88.326   0.8822954    0   0   1   1   0
####   TN   22.3   1000   1   Ground-Based Mech WT   419.0672987   0   0.43   93.2028   0.9461187    45.34   45   2.95   93.203   0.9461187    94.5   40   21.8   88.866   0.9461187    0   0   1   1   0
####   TN   29.6   1000   1   Ground-Based Mech WT   239.1846114   0   0.28   89.5726   0.9974248     56.5   45   2.78   89.573   0.9974248    87.3   40   24.7   94.782   0.9974248    0   0   1   1   0
####   TN   8.89   1000   1   Ground-Based Mech WT   594.6637001   0    0.3   98.9757   0.7293183    69.82   45   2.17   98.976   0.7293183    83.6   40   11.2    87.67   0.7293183    0   0   1   1   0
####   TN   31.6   1000   1   Ground-Based Mech WT   468.5505097   0   0.35   92.7972   0.9435925    42.24   45   2.81   92.797   0.9435925    91.8   40   21.2   90.729   0.9435925    0   0   1   1   0
####   TN     18   1000   1   Ground-Based Mech WT   552.0926753   0   0.32   97.1989   0.8273354    49.92   45   2.63   97.199   0.8273354    85.3   40   17.6   90.336   0.8273354    0   0   1   1   0
####   TN   44.7   1000   1   Ground-Based Mech WT   420.5994175   0   0.34   95.6357   0.8060655    50.89   45   2.76   95.636   0.8060655    95.5   40   21.4   89.704   0.8060655    0   0   1   1   0
####   TN   8.21   1000   1   Ground-Based Mech WT   323.0392914   0   0.35   92.6552    0.875714    58.36   45   2.69   92.655    0.875714     105   40   23.3   91.212    0.875714    0   0   1   1   0
####   TN   26.2   1000   1   Ground-Based Mech WT   485.9947493   0   0.41   94.7119   0.9301804    57.65   45   2.47   94.712   0.9301804    98.8   40   17.9   89.415   0.9301804    0   0   1   1   0
####   TN   18.6   1000   1   Ground-Based Mech WT   425.3337011   0   0.39   95.8294   0.8844392    57.91   45    2.5   95.829   0.8844392    93.5   40   19.5   89.559   0.8844392    0   0   1   1   0
####   TN   31.5   1000   1   Ground-Based Mech WT   383.1157081   0   0.38   92.8872   0.9347529    42.04   45   2.63   92.887   0.9347529    93.9   40   21.7   88.356   0.9347529    0   0   1   1   0
####   TN     18   1000   1   Ground-Based Mech WT   387.0240991   0   0.47     93.64   0.9670292    43.57   45   2.54    93.64   0.9670292    79.8   40   17.5   91.348   0.9670292    0   0   1   1   0
####   TN   18.9   1000   1   Ground-Based Mech WT   669.2401236   0   0.27   95.0428            1   30.54   45   2.68   95.043            1   75.8   40   25.5    95.49            1   0   0   1   1   0
####   TN   28.9   1000   1   Ground-Based Mech WT   527.0702491   0   0.39   99.5453   0.7853598    88.54   45   2.38   99.545   0.7853598     110   40   11.9    90.15   0.7853598    0   0   1   1   0
####   TN     48   1000   1   Ground-Based Mech WT   308.5066966   0   0.39    91.427   0.8085754    55.37   45   3.19   91.427   0.8085754     132   40   23.6   89.656   0.8085754    0   0   1   1   0
####   TN   33.4   1000   1   Ground-Based Mech WT   387.8595363   0    0.4   92.8813   0.9010675    45.83   45      3   92.881   0.9010675    91.7   40   21.4   89.918   0.9010675    0   0   1   1   0
####   TN   14.9   1000   1   Ground-Based Mech WT   344.6702936   0   0.41   96.1268   0.8100817    58.37   45   2.58   96.127   0.8100817    78.3   40   18.3   89.558   0.8100817    0   0   1   1   0
####   TN   16.8   1000   1   Ground-Based Mech WT   255.6302606   0   0.35   92.2563   0.9716931    39.52   45   2.83   92.256   0.9716931      92   40   23.1   91.094   0.9716931    0   0   1   1   0
####   TN   26.4   1000   1   Ground-Based Mech WT   300.9955514   0   0.46   97.6384   0.8863542    56.41   45   2.84   97.638   0.8863542    98.8   40   24.5   90.517   0.8863542    0   0   1   1   0
####   TN   22.7   1000   1   Ground-Based Mech WT   429.8659611   0   0.37   93.0037   0.8702223    53.68   45   2.85   93.004   0.8702223     104   40   17.5   88.556   0.8702223    0   0   1   1   0
####   TN   6.71   1000   1   Ground-Based Mech WT    335.748166   0   0.37   91.6136   0.8920537    35.01   45   2.55   91.614   0.8920537    77.8   40   25.8   89.476   0.8920537    0   0   1   1   0
####   TN   20.3   1000   1   Ground-Based Mech WT   428.2326635   0   0.38    96.526   0.9269192    49.63   45   2.74   96.526   0.9269192    88.4   40   22.6   89.719   0.9269192    0   0   1   1   0
####   TN   17.9   1000   1   Ground-Based Mech WT   389.1270381   0   0.39    93.057   0.9379607    38.57   45   2.61   93.057   0.9379607     102   40   20.6   89.923   0.9379607    0   0   1   1   0
####   TN   9.59   1000   1   Ground-Based Mech WT    504.583585   0   0.34   95.0999   0.8383864    60.96   45   2.48     95.1   0.8383864    85.5   40     13   88.315   0.8383864    0   0   1   1   0
####   TX   4.46   1000   1   Ground-Based Mech WT   565.8494421   0   0.25   100.846    0.607861    53.52   45   2.14   100.85    0.607861    76.2   40   15.9   92.724    0.607861    0   0   1   1   0
####   TX    3.9   1000   1   Ground-Based Mech WT   419.9408674   0   0.29     100.9   0.3324465    43.92   45   2.39    100.9   0.3324465    77.2   40   23.1   87.869   0.3324465    0   0   1   1   0
####   TX   3.79   1000   1   Ground-Based Mech WT   451.1180509   0   0.32   98.5739   0.6758128    45.69   45   2.13   98.574   0.6758128    65.5   40   17.6   92.663   0.6758128    0   0   1   1   0
####   TX   6.25   1000   1   Ground-Based Mech WT   597.7494223   0   0.33   92.2825   0.6126041    45.59   45   2.59   92.283   0.6126041      83   40   24.7   91.683   0.6126041    0   0   1   1   0
####   TX   6.55   1000   1   Ground-Based Mech WT    597.170408   0   0.27   105.832   0.5202702    61.44   45   1.95   105.83   0.5202702    63.7   40   16.4   90.258   0.5202702    0   0   1   1   0
####   TX   1.13   1000   1   Ground-Based Mech WT   500.9588785   0   0.29    111.09   0.5411678    50.36   45   2.03   111.09   0.5411678    73.4   40   12.4   93.708   0.5411678    0   0   1   1   0
####   TX   5.39   1000   1   Ground-Based Mech WT   491.6352269   0   0.27   100.983   0.5371211    52.64   45   2.36   100.98   0.5371211    78.1   40   15.8   90.455   0.5371211    0   0   1   1   0
####   TX   4.67   1000   1   Ground-Based Mech WT   494.7403255   0   0.32   97.0176   0.9080311    52.06   45   2.19   97.018   0.9080311    64.7   40   14.4    95.09   0.9080311    0   0   1   1   0
####   TX   3.53   1000   1   Ground-Based Mech WT   602.2737145   0   0.24   98.1103   0.6209352    52.28   45   2.48    98.11   0.6209352    89.9   40   19.5   92.664   0.6209352    0   0   1   1   0
####   TX   3.45   1000   1   Ground-Based Mech WT   186.4776511   0   0.27   101.111   0.6113769    34.02   45   2.22   101.11   0.6113769    72.3   40   13.2   91.882   0.6113769    0   0   1   1   0
####   TX   1.29   1000   1   Ground-Based Mech WT   520.4120347   0    0.3   102.099   0.3984276    62.24   45   2.48    102.1   0.3984276    81.3   40   14.3   93.396   0.3984276    0   0   1   1   0
####   TX   1.65   1000   1   Ground-Based Mech WT   328.3788541   0   0.39   105.767   0.4110836    38.75   45   2.09   105.77   0.4110836    59.6   40   19.2   90.114   0.4110836    0   0   1   1   0
####   TX   4.45   1000   1   Ground-Based Mech WT   671.9244537   0   0.24   99.7895   0.4934816    49.84   45   2.36   99.789   0.4934816      70   40   18.5   91.882   0.4934816    0   0   1   1   0
####   TX   5.32   1000   1   Ground-Based Mech WT   355.8561865   0   0.26   103.357   0.7785377    42.83   45   2.04   103.36   0.7785377    73.5   40   12.7   98.901   0.7785377    0   0   1   1   0
####   TX   4.21   1000   1   Ground-Based Mech WT   442.3361507   0   0.29   99.4307   0.3516993     42.7   45   2.35   99.431   0.3516993    75.6   40   22.7   89.178   0.3516993    0   0   1   1   0
####   TX   3.77   1000   1   Ground-Based Mech WT   634.6720128   0   0.27   102.608   0.3788707    48.39   45   2.31   102.61   0.3788707    60.6   40   21.5    91.38   0.3788707    0   0   1   1   0
####   TX   1.06   1000   1   Ground-Based Mech WT   487.6478932   0   0.43   103.768   0.7886196    61.66   45   2.14   103.77   0.7886196    72.8   40   15.4   91.748   0.7886196    0   0   1   1   0
####   TX   4.23   1000   1   Ground-Based Mech WT   155.2656889   0   0.42   97.7925   0.9228217    39.85   45   2.21   97.793   0.9228217    82.6   40   13.5   92.979   0.9228217    0   0   1   1   0
####   TX   1.68   1000   1   Ground-Based Mech WT   623.6997236   0   0.34   101.273    0.617306    51.46   45   2.45   101.27    0.617306    73.7   40   16.6   93.862    0.617306    0   0   1   1   0
####   TX      4   1000   1   Ground-Based Mech WT   240.5867854   0   0.36   101.028   0.9304763    34.71   45   2.09   101.03   0.9304763      62   40   16.5   97.093   0.9304763    0   0   1   1   0
####   TX   6.46   1000   1   Ground-Based Mech WT   661.0622712   0   0.28   103.731   0.3944636    51.57   45   2.21   103.73   0.3944636    70.6   40   18.7   94.296   0.3944636    0   0   1   1   0
####   TX   2.34   1000   1   Ground-Based Mech WT   418.6178196   0   0.29   103.359   0.3486287     51.9   45   2.33   103.36   0.3486287    73.4   40   25.9   88.759   0.3486287    0   0   1   1   0
####   TX   5.53   1000   1   Ground-Based Mech WT   621.1896609   0   0.24    102.56    0.707064    67.16   45   2.17   102.56    0.707064    66.9   40   19.1   94.923    0.707064    0   0   1   1   0
####   TX   6.05   1000   1   Ground-Based Mech WT   524.9150147   0   0.27   100.101   0.4113149    53.42   45   2.61    100.1   0.4113149      74   40   22.1   88.279   0.4113149    0   0   1   1   0
####   TX   4.13   1000   1   Ground-Based Mech WT   673.3059159   0   0.26    104.47   0.4432677    52.27   45   2.24   104.47   0.4432677    64.6   40   14.7   90.314   0.4432677    0   0   1   1   0
####   TX   1.43   1000   1   Ground-Based Mech WT   963.3666029   0   0.29   107.117   0.4411297    61.99   45   2.07   107.12   0.4411297    50.2   40   11.9   90.003   0.4411297    0   0   1   1   0
####   TX   4.49   1000   1   Ground-Based Mech WT   558.2618442   0   0.29   102.934   0.4711627    62.45   45   2.18   102.93   0.4711627    80.4   40   22.2   92.889   0.4711627    0   0   1   1   0
####   TX   4.32   1000   1   Ground-Based Mech WT   454.3654504   0   0.29   103.152   0.3550692    51.55   45   2.37   103.15   0.3550692    72.5   40   16.8   89.637   0.3550692    0   0   1   1   0
####   TX   3.94   1000   1   Ground-Based Mech WT   468.3049587   0   0.29   99.7046   0.7796664     46.5   45   2.01   99.705   0.7796664    64.9   40   12.9   93.172   0.7796664    0   0   1   1   0
####   TX   6.93   1000   1   Ground-Based Mech WT   433.4779136   0   0.26   101.773   0.4475694    48.66   45   2.32   101.77   0.4475694    70.5   40   17.2    90.18   0.4475694    0   0   1   1   0
####   TX   7.05   1000   1   Ground-Based Mech WT   639.2018485   0   0.29   102.277   0.2619979    75.29   45   2.41   102.28   0.2619979    78.4   40   20.6   87.943   0.2619979    0   0   1   1   0
####   TX    4.3   1000   1   Ground-Based Mech WT   624.1535349   0   0.27   101.347   0.2017133    65.49   45    2.5   101.35   0.2017133    98.1   40     19   87.178   0.2017133    0   0   1   1   0
####   TX   4.09   1000   1   Ground-Based Mech WT   592.6896355   0    0.3   100.408   0.3451573    52.63   45   2.65   100.41   0.3451573    93.7   40   18.1   89.216   0.3451573    0   0   1   1   0
####   TX   6.21   1000   1   Ground-Based Mech WT   461.8179036   0   0.32   100.892   0.4481253    52.66   45   2.35   100.89   0.4481253    74.1   40   19.5   89.223   0.4481253    0   0   1   1   0
####   TX   6.35   1000   1   Ground-Based Mech WT   530.5597189   0   0.28   100.385   0.5676555    47.64   45   2.14   100.39   0.5676555    59.5   40   16.8   93.224   0.5676555    0   0   1   1   0
####   TX   4.82   1000   1   Ground-Based Mech WT   453.7885628   0   0.27   100.754   0.7866606    33.98   45   2.06   100.75   0.7866606      71   40   17.6   93.462   0.7866606    0   0   1   1   0
####   TX   3.36   1000   1   Ground-Based Mech WT   384.4038023   0   0.29   105.124   0.2029674    64.93   45   2.26   105.12   0.2029674    82.4   40   22.9   90.197   0.2029674    0   0   1   1   0
####   TX   4.29   1000   1   Ground-Based Mech WT   570.8381663   0   0.29   103.592   0.3437108    64.45   45   2.29   103.59   0.3437108    77.8   40   14.6   91.423   0.3437108    0   0   1   1   0
####   TX   6.58   1000   1   Ground-Based Mech WT   618.9360532   0   0.28   98.0183   0.5111906    43.17   45   2.36   98.018   0.5111906    64.8   40   18.8   91.217   0.5111906    0   0   1   1   0
####   TX   5.23   1000   1   Ground-Based Mech WT   386.3254706   0   0.27    92.731   0.9087121    40.98   45   2.23   92.731   0.9087121    68.8   40     16   95.905   0.9087121    0   0   1   1   0
####   TX   3.85   1000   1   Ground-Based Mech WT   482.0762141   0   0.27   101.799   0.2695446    58.75   45    2.4    101.8   0.2695446    79.7   40   19.3    88.45   0.2695446    0   0   1   1   0
####   TX   3.67   1000   1   Ground-Based Mech WT   278.9967518   0   0.22   100.492   0.6127243    20.39   45   1.95   100.49   0.6127243    51.3   40   26.2   92.911   0.6127243    0   0   1   1   0
####   TX   5.34   1000   1   Ground-Based Mech WT   455.8986938   0   0.28   96.4421    0.643987    47.15   45   2.39   96.442    0.643987    72.1   40     15   93.003    0.643987    0   0   1   1   0
####   VA   0.64   1000   1   Ground-Based Mech WT   804.0889413   0   0.33   96.9128   0.3504173     60.2   45   2.81   96.913   0.3504173     150   40   20.8   87.983   0.3504173    0   0   1   1   0
####   VA     21   1000   1   Ground-Based Mech WT   428.6978389   0   0.36   92.5195      0.85953   40.34   45   2.85    92.52      0.85953   94.6   40   22.7   92.526      0.85953   0   0   1   1   0
####   VA   32.3   1000   1   Ground-Based Mech WT   343.5443503   0   0.37   90.9467   0.8109473    49.08   45   2.67   90.947   0.8109473     105   40   15.3   93.388   0.8109473    0   0   1   1   0
####   VA   8.24   1000   1   Ground-Based Mech WT   727.3080131   0   0.31   97.4131   0.6038659    57.37   45   2.53   97.413   0.6038659     122   40   18.2   88.757   0.6038659    0   0   1   1   0
####   VA   23.6   1000   1   Ground-Based Mech WT   439.9606756   0   0.33    93.683   0.7966309    54.79   45   2.58   93.683   0.7966309     105   40   16.9   87.866   0.7966309    0   0   1   1   0
####   VA   13.1   1000   1   Ground-Based Mech WT   840.7107501   0   0.34   96.8813   0.8338807    69.31   45   2.58   96.881   0.8338807    76.5   40   16.5   91.203   0.8338807    0   0   1   1   0
####   VA   27.3   1000   1   Ground-Based Mech WT   465.2417081   0   0.37   91.9775   0.8004592    53.62   45   2.43   91.977   0.8004592     106   40   15.8   88.058   0.8004592    0   0   1   1   0
####   VA   31.3   1000   1   Ground-Based Mech WT   290.5527521   0   0.41   89.1321   0.8628949    55.03   45   2.68   89.132   0.8628949     112   40   18.5   93.448   0.8628949    0   0   1   1   0
####   VA   23.7   1000   1   Ground-Based Mech WT   478.3265025   0   0.35    96.027   0.8660479    56.13   45   2.65   96.027   0.8660479     105   40   19.6   89.786   0.8660479    0   0   1   1   0
####   VA   36.9   1000   1   Ground-Based Mech WT   366.9345332   0   0.27   94.6621   0.8752653    70.19   45   2.66   94.662   0.8752653     114   40   17.3   94.918   0.8752653    0   0   1   1   0
####   VA     33   1000   1   Ground-Based Mech WT   560.9415592   0   0.36    91.949   0.8617559    57.78   45    2.6   91.949   0.8617559    99.6   40   16.4   89.705   0.8617559    0   0   1   1   0
####   VA   6.95   1000   1   Ground-Based Mech WT   1014.553259   0   0.29   97.9857    0.483616    59.14   45   2.95   97.986    0.483616    99.9   40   15.7   89.681    0.483616    0   0   1   1   0
####   VA   57.1   1000   1   Ground-Based Mech WT   425.0105165   0   0.41   90.4647   0.9662296    44.71   45   2.86   90.465   0.9662296    90.2   40   23.3   94.881   0.9662296    0   0   1   1   0
####   VA   11.6   1000   1   Ground-Based Mech WT   694.9408412   0   0.35   96.7147   0.6638134     78.2   45   2.66   96.715   0.6638134    99.2   40   13.7   88.235   0.6638134    0   0   1   1   0
####   VA   15.3   1000   1   Ground-Based Mech WT   745.8710376   0   0.41   93.4657   0.6849963    73.53   45   2.91   93.466   0.6849963     112   40   15.6   86.209   0.6849963    0   0   1   1   0
####   VA   8.27   1000   1   Ground-Based Mech WT   636.8946362   0   0.32   96.6642   0.6901689    68.67   45   2.72   96.664   0.6901689     113   40     19   89.557   0.6901689    0   0   1   1   0
####   VA   30.2   1000   1   Ground-Based Mech WT    497.965886   0   0.38   88.8171   0.6362709    52.69   45   2.71   88.817   0.6362709     110   40   15.7   87.197   0.6362709    0   0   1   1   0
####   VA   2.96   1000   1   Ground-Based Mech WT   602.9150834   0   0.28   99.4933   0.5564889    63.24   45   2.56   99.493   0.5564889     138   40   19.2   88.395   0.5564889    0   0   1   1   0
####   VA   13.7   1000   1   Ground-Based Mech WT   620.0361837   0   0.26   99.0583   0.6465439     52.8   45   2.41   99.058   0.6465439      83   40     18   89.295   0.6465439    0   0   1   1   0
####   VA      7   1000   1   Ground-Based Mech WT   766.3340068   0   0.31   96.3742   0.6951485    57.28   45   2.69   96.374   0.6951485     106   40   20.1   88.443   0.6951485    0   0   1   1   0
####   VA   17.8   1000   1   Ground-Based Mech WT   188.4816201   0   0.16   87.7374   0.9958351    37.48   45   2.86   87.737   0.9958351    90.5   40   28.7   90.784   0.9958351    0   0   1   1   0
####   VA   32.1   1000   1   Ground-Based Mech WT   453.9505522   0   0.39   89.9966   0.8388271    58.33   45   2.45   89.997   0.8388271     109   40   13.8   91.256   0.8388271    0   0   1   1   0
####   VA      8   1000   1   Ground-Based Mech WT   564.3395918   0   0.38   89.5106   0.8126159    44.31   45   3.26   89.511   0.8126159    95.5   40     21   88.184   0.8126159    0   0   1   1   0
####   VA    9.1   1000   1   Ground-Based Mech WT   861.0891189   0   0.31   97.5182   0.5241571    92.35   45   2.72   97.518   0.5241571     123   40   13.6   88.285   0.5241571    0   0   1   1   0
####   VA   51.6   1000   1   Ground-Based Mech WT   387.5968472   0    0.4   91.0758   0.9668717     53.9   45   2.94   91.076   0.9668717    83.3   40   21.6   93.724   0.9668717    0   0   1   1   0
####   VA    3.8   1000   1   Ground-Based Mech WT   775.5166563   0   0.25   99.7472   0.5970422    50.68   45    2.5   99.747   0.5970422      86   40     18   89.419   0.5970422    0   0   1   1   0
####   VA   8.75   1000   1   Ground-Based Mech WT   901.0130621   0   0.25   100.178   0.5202553    82.28   45   2.47   100.18   0.5202553     116   40   12.1   89.574   0.5202553    0   0   1   1   0
####   VA      7   1000   1   Ground-Based Mech WT   187.1115124   0   0.39   90.1661   0.9767211    34.76   45   2.86   90.166   0.9767211     102   40   30.2   91.389   0.9767211    0   0   1   1   0
####   VA   12.2   1000   1   Ground-Based Mech WT    412.616612   0   0.37   97.9958   0.9211346     54.5   45   2.17   97.996   0.9211346    81.9   40   23.8   90.413   0.9211346    0   0   1   1   0
####   VA   27.2   1000   1   Ground-Based Mech WT   317.2161987   0   0.36   88.8732   0.7311726     57.1   45   2.96   88.873   0.7311726     124   40   17.5    88.11   0.7311726    0   0   1   1   0
####   VA   9.42   1000   1   Ground-Based Mech WT   560.4107546   0   0.29     93.05   0.8206069    60.53   45   2.83    93.05   0.8206069    87.4   40   16.5   87.863   0.8206069    0   0   1   1   0
####   VA     23   1000   1   Ground-Based Mech WT   580.8964263   0   0.31   93.3227   0.8031699    52.39   45   2.73   93.323   0.8031699     109   40   18.9   89.027   0.8031699    0   0   1   1   0
####   VA   21.1   1000   1   Ground-Based Mech WT   449.4681026   0    0.3   91.0928   0.8796054    38.96   45   2.63   91.093   0.8796054    99.6   40   20.4   88.422   0.8796054    0   0   1   1   0
####   VA   29.8   1000   1   Ground-Based Mech WT   331.5010105   0   0.36   97.8219   0.9760962    48.86   45   2.57   97.822   0.9760962     107   40   20.7   94.181   0.9760962    0   0   1   1   0
####   VA   7.14   1000   1   Ground-Based Mech WT   563.7479739   0   0.38   92.4638   0.7123762    52.81   45   2.89   92.464   0.7123762     129   40   22.8   90.415   0.7123762    0   0   1   1   0
####   VA   8.65   1000   1   Ground-Based Mech WT   597.2790855   0   0.32   94.3779   0.7314961    51.17   45   3.04   94.378   0.7314961     115   40   21.3    89.15   0.7314961    0   0   1   1   0
####   VA   32.1   1000   1   Ground-Based Mech WT   387.7939158   0   0.42    88.794   0.7850562    46.64   45   2.73   88.794   0.7850562     115   40   18.9   88.415   0.7850562    0   0   1   1   0
####   VA   26.5   1000   1   Ground-Based Mech WT   453.9703315   0   0.28   96.6451   0.9659471    50.82   45   2.76   96.645   0.9659471    92.2   40   24.4    89.53   0.9659471    0   0   1   1   0
####   VA   2.34   1000   1   Ground-Based Mech WT   746.1799664   0    0.3   98.3105   0.5853557    69.77   45   2.61   98.311   0.5853557     106   40   19.1   90.013   0.5853557    0   0   1   1   0
####   VA   10.8   1000   1   Ground-Based Mech WT   868.9341969   0   0.31   98.0272   0.5191147    70.42   45   2.53   98.027   0.5191147    98.8   40   14.9   88.549   0.5191147    0   0   1   1   0
####   VA   8.68   1000   1   Ground-Based Mech WT   520.6851754   0   0.37   94.8714    0.717041    70.81   45    2.9   94.871    0.717041     126   40   18.2   90.314    0.717041    0   0   1   1   0
####   VA   3.75   1000   1   Ground-Based Mech WT   377.9429068   0   0.37   96.5797   0.7807942    51.13   45   2.32    96.58   0.7807942    90.8   40   16.2   89.183   0.7807942    0   0   1   1   0
####   VA   18.1   1000   1   Ground-Based Mech WT    1075.95209   0   0.42    91.831   0.5673301    77.15   45   3.11   91.831   0.5673301     101   40     16   85.445   0.5673301    0   0   1   1   0
####   VA   32.6   1000   1   Ground-Based Mech WT   281.8329207   0   0.47   88.1225    0.782165    48.72   45   2.93   88.123    0.782165     113   40   20.2   92.023    0.782165    0   0   1   1   0
####   VA   2.09   1000   1   Ground-Based Mech WT     554.41018   0   0.25   100.199   0.6778142    55.66   45   2.37    100.2   0.6778142    86.7   40   17.3   88.216   0.6778142    0   0   1   1   0
####   VA   9.93   1000   1   Ground-Based Mech WT   639.6787261   0    0.3   93.8155   0.7682448    37.64   45   2.66   93.816   0.7682448    93.1   40   24.7   90.724   0.7682448    0   0   1   1   0
####   VA   9.06   1000   1   Ground-Based Mech WT     580.76861   0   0.31   100.036   0.7226072    69.82   45   2.26   100.04   0.7226072    82.4   40   18.9   90.079   0.7226072    0   0   1   1   0
####   VA   13.2   1000   1   Ground-Based Mech WT   433.6810659   0   0.33   94.1652   0.9127266    44.09   45   2.77   94.165   0.9127266    97.6   40   30.5   94.881   0.9127266    0   0   1   1   0
####   VA   8.28   1000   1   Ground-Based Mech WT   889.5218883   0   0.26    95.893   0.6295829    78.18   45   2.91   95.893   0.6295829     114   40   15.3    90.32   0.6295829    0   0   1   1   0
####   VA   5.73   1000   1   Ground-Based Mech WT   480.7970529   0   0.51   94.6268   0.6075399    84.54   45   2.73   94.627   0.6075399     111   40   15.1   88.273   0.6075399    0   0   1   1   0
####   VA   36.3   1000   1   Ground-Based Mech WT   424.2788035   0   0.37   90.6344    0.960262    47.01   45   3.05   90.634    0.960262     103   40   21.2   91.829    0.960262    0   0   1   1   0
####   VA   12.6   1000   1   Ground-Based Mech WT   220.1998828   0   0.47   92.8742    0.943666    46.26   45   2.57   92.874    0.943666    97.6   40   23.6   90.467    0.943666    0   0   1   1   0
####   VA    8.6   1000   1   Ground-Based Mech WT   589.9725056   0   0.31   95.9228   0.6973228    64.93   45   2.79   95.923   0.6973228     117   40   15.2   88.155   0.6973228    0   0   1   1   0
####   VA   9.49   1000   1   Ground-Based Mech WT   697.4246598   0   0.29   99.0767   0.5829564    72.76   45   2.46   99.077   0.5829564     103   40   16.4   88.233   0.5829564    0   0   1   1   0
####   VA   23.1   1000   1   Ground-Based Mech WT   343.3419973   0   0.38   92.1517   0.8270087    39.38   45   2.64   92.152   0.8270087    85.4   40   35.1    87.89   0.8270087    0   0   1   1   0
####   VA   0.38   1000   1   Ground-Based Mech WT   868.4837952   0   0.37   95.1357   0.5876855    73.14   45   2.69   95.136   0.5876855     103   40   18.7   89.504   0.5876855    0   0   1   1   0
####   VA   8.36   1000   1   Ground-Based Mech WT   734.4693601   0    0.3   96.1091   0.6638597    71.64   45   2.74   96.109   0.6638597     118   40   17.2   89.799   0.6638597    0   0   1   1   0
####   VA   8.83   1000   1   Ground-Based Mech WT   563.7039266   0   0.34   87.5812   0.6761133    40.37   45   2.95   87.581   0.6761133      80   40   24.9   86.969   0.6761133    0   0   1   1   0
####   VA   30.9   1000   1   Ground-Based Mech WT   388.5220333   0    0.3   93.5552   0.8277088    53.73   45   2.56   93.555   0.8277088     104   40   14.7   91.067   0.8277088    0   0   1   1   0
####   VA   32.2   1000   1   Ground-Based Mech WT   481.7115873   0   0.39   92.5132   0.8800026    51.29   45    2.8   92.513   0.8800026    96.1   40   21.9   89.505   0.8800026    0   0   1   1   0
####   VA   7.76   1000   1   Ground-Based Mech WT   774.8993582   0   0.34   96.7576    0.598292    85.93   45   2.85   96.758    0.598292     125   40   14.7   90.978    0.598292    0   0   1   1   0
####   VA   0.17   1000   1   Ground-Based Mech WT    379.779468   0   0.42   94.8154   0.2867103    81.67   45   2.36   94.815   0.2867103     138   40   17.1   85.151   0.2867103    0   0   1   1   0
####   VA   8.71   1000   1   Ground-Based Mech WT   627.5587553   0   0.34   92.1958   0.7798501    48.29   45   2.59   92.196   0.7798501    92.3   40   21.5   90.504   0.7798501    0   0   1   1   0
####   VA   10.7   1000   1   Ground-Based Mech WT   699.2424882   0   0.27   100.174   0.5867834    68.37   45   2.49   100.17   0.5867834    93.5   40   15.3   88.289   0.5867834    0   0   1   1   0
####   VA   8.97   1000   1   Ground-Based Mech WT   366.5120119   0   0.36   93.6816   0.9012656    43.87   45   2.69   93.682   0.9012656    95.4   40   23.9   92.198   0.9012656    0   0   1   1   0
####   VA   22.3   1000   1   Ground-Based Mech WT   487.0788858   0   0.35    90.803   0.8957679    44.78   45   2.43   90.803   0.8957679     102   40   17.8   87.886   0.8957679    0   0   1   1   0
####   VA   30.9   1000   1   Ground-Based Mech WT    431.318775   0   0.41   94.1739   0.8931511    57.28   45   2.67   94.174   0.8931511     112   40   19.4    88.89   0.8931511    0   0   1   1   0
####   VA     13   1000   1   Ground-Based Mech WT   740.2108979   0   0.34   95.1689   0.7531848    59.86   45   2.86   95.169   0.7531848     100   40   17.2    88.32   0.7531848    0   0   1   1   0
####   VA   7.96   1000   1   Ground-Based Mech WT   688.4383638   0   0.32   96.7175   0.5892543     62.2   45   2.51   96.718   0.5892543     127   40   16.4   87.857   0.5892543    0   0   1   1   0
####   VA   10.9   1000   1   Ground-Based Mech WT   888.5199675   0   0.23   97.6914   0.5930934     61.6   45   2.58   97.691   0.5930934    79.2   40   14.2   87.972   0.5930934    0   0   1   1   0
####   VA   3.55   1000   1   Ground-Based Mech WT   738.7663512   0   0.31   101.705   0.5425514    58.94   45   2.33   101.71   0.5425514    83.9   40   16.5   91.866   0.5425514    0   0   1   1   0
####   VA   11.1   1000   1   Ground-Based Mech WT   393.7476162   0    0.4   88.4916   0.8258059    55.62   45   3.15   88.492   0.8258059     118   40   25.1   87.971   0.8258059    0   0   1   1   0
####   VA     39   1000   1   Ground-Based Mech WT   336.3171653   0   0.44   91.2675   0.8339829    48.76   45   2.61   91.267   0.8339829     109   40   16.2   93.563   0.8339829    0   0   1   1   0
####   VA   30.5   1000   1   Ground-Based Mech WT   236.7625601   0   0.47   90.5276    0.935054    32.45   45   2.79   90.528    0.935054    95.2   40   26.7   88.179    0.935054    0   0   1   1   0
####   VA   11.1   1000   1   Ground-Based Mech WT   871.4195546   0   0.23   98.2056   0.6437584    77.28   45   2.53   98.206   0.6437584     120   40   15.8   88.489   0.6437584    0   0   1   1   0
####   VA   29.3   1000   1   Ground-Based Mech WT   406.6292402   0   0.34   96.7127   0.8030373    58.77   45    2.3   96.713   0.8030373     106   40   15.4   91.345   0.8030373    0   0   1   1   0
####   VA   29.2   1000   1   Ground-Based Mech WT   331.1746974   0   0.33   93.1741   0.8512072    53.41   45    2.7   93.174   0.8512072     110   40   18.2   89.557   0.8512072    0   0   1   1   0
####   VA   33.7   1000   1   Ground-Based Mech WT   327.3896775   0   0.38   93.6499   0.8442624     47.5   45   2.63    93.65   0.8442624     104   40   19.2   89.123   0.8442624    0   0   1   1   0
####   VA   48.9   1000   1   Ground-Based Mech WT   336.5473164   0   0.46    91.403    0.923647    45.29   45   2.89   91.403    0.923647     106   40     22   90.392    0.923647    0   0   1   1   0
####   VA   43.4   1000   1   Ground-Based Mech WT   418.7971845   0   0.36   91.6238   0.9486164    48.92   45   2.95   91.624   0.9486164    94.5   40   24.8   90.869   0.9486164    0   0   1   1   0
####   VA   26.4   1000   1   Ground-Based Mech WT   443.3631704   0   0.33   91.6069   0.9484954    49.47   45   2.37   91.607   0.9484954    96.9   40   18.1   88.932   0.9484954    0   0   1   1   0
####   VA   32.6   1000   1   Ground-Based Mech WT   522.4461585   0   0.33   96.3077   0.9412812     58.2   45    2.8   96.308   0.9412812     104   40     19   93.017   0.9412812    0   0   1   1   0
####   VA    1.7   1000   1   Ground-Based Mech WT   676.4684453   0   0.29   98.6435    0.521568    62.65   45   2.59   98.644    0.521568     111   40   15.1   91.791    0.521568    0   0   1   1   0
####   VA   8.24   1000   1   Ground-Based Mech WT   455.9846502   0   0.33   93.6936    0.670389    49.72   45   3.11   93.694    0.670389     133   40   19.2    86.96    0.670389    0   0   1   1   0
####   VA   13.5   1000   1   Ground-Based Mech WT   555.9721884   0    0.3    91.694   0.9467033    49.17   45   3.01   91.694   0.9467033     116   40   23.9   91.232   0.9467033    0   0   1   1   0
####   VA   2.79   1000   1   Ground-Based Mech WT   705.4426886   0   0.31   100.429   0.5459856    104.4   45   2.48   100.43   0.5459856     116   40   11.9   89.286   0.5459856    0   0   1   1   0
####   VA   1.68   1000   1   Ground-Based Mech WT   820.1590047   0   0.27   98.4277   0.4017729    56.02   45    2.5   98.428   0.4017729    74.9   40   17.1   87.831   0.4017729    0   0   1   1   0
####   VA   46.1   1000   1   Ground-Based Mech WT   410.5604289   0   0.38   91.9173   0.9908303    51.79   45   2.86   91.917   0.9908303     104   40   17.2   92.979   0.9908303    0   0   1   1   0
####   VA     13   1000   1   Ground-Based Mech WT   282.9484041   0   0.32   93.7668   0.8882927    41.69   45   2.29   93.767   0.8882927    97.9   40   23.7     90.8   0.8882927    0   0   1   1   0
####   VA   45.2   1000   1   Ground-Based Mech WT   424.9223966   0   0.35   95.4766   0.9228984    53.37   45   2.74   95.477   0.9228984     118   40   20.2     90.5   0.9228984    0   0   1   1   0
####   VA   12.8   1000   1   Ground-Based Mech WT   719.0966322   0   0.32   94.0019   0.8533065    51.77   45   2.68   94.002   0.8533065    92.9   40   22.6   92.438   0.8533065    0   0   1   1   0
####   VA   40.1   1000   1   Ground-Based Mech WT   420.7358689   0   0.41    89.734   0.9448235     45.1   45    2.9   89.734   0.9448235    81.2   40   20.3   93.223   0.9448235    0   0   1   1   0
####   VA   36.3   1000   1   Ground-Based Mech WT   457.2531743   0   0.25   91.8656    0.825193    45.58   45   2.43   91.866    0.825193    99.9   40     15   88.485    0.825193    0   0   1   1   0
####   VA   7.18   1000   1   Ground-Based Mech WT   460.7382603   0   0.35   95.5349   0.7639841    46.48   45   2.94   95.535   0.7639841     110   40   35.6   92.212   0.7639841    0   0   1   1   0
####   VA      0   1000   1   Ground-Based Mech WT   660.8375089   0   0.38    98.311   0.4643351    78.81   45   3.19   98.311   0.4643351     128   40   17.2   87.747   0.4643351    0   0   1   1   0
####   VA      0   1000   1   Ground-Based Mech WT             0   0      0         0   0.4926814    26.64   45   3.71   97.788   0.4926814     240   40   33.4   87.638   0.4926814    0   0   1   1   0
####   VA      2   1000   1   Ground-Based Mech WT     74.965282   0   0.42   90.0419   0.2448927    30.09   45   3.41   90.042   0.2448927     108   40   25.3   85.373   0.2448927    0   0   1   1   0
####   VA   3.06   1000   1   Ground-Based Mech WT   551.9871168   0   0.35   97.0649   0.4429887    66.23   45   2.97   97.065   0.4429887     105   40   18.2   88.168   0.4429887    0   0   1   1   0
####   VA      0   1000   1   Ground-Based Mech WT   434.5212892   0    0.5   94.4751   0.5799345    94.14   45   2.71   94.475   0.5799345     136   40   18.6   88.682   0.5799345    0   0   1   1   0
Inputs


Stand variables                                   Cut trees/ac          bole volume/tree,          bole wt/tree,**
                                                                        ft3                        green lbs
             for trees to be chipped                                0                       0
             small log*                                             0                       0
             large log                                              9              266.223139

             * <= 80 ft3 or <= 20" dbh, whichever you think is preferable
             **or bole density, green lb/ft3 if easier. Can use default value if not supplied.
             *** or residue wt as percent of bole wt if easier. This should account for all limbs and the top.
             **** can use default relationships for these if not supplied

Unit variables
              YardDist, ft one way slope distance                10560
              Slope, %                                                3
              Area, acres                                             1
              MoveInDist, miles one way                               0
              Elevation                                               0
Toggles and other discrete variables                                                                         1
              Partial cut or clearcut                                                                        2
              System*****
              Include move-in cost *****                                                           FALSE
              Include costs of collecting and chipping residues*****                                TRUE
              Diesel Fuel Price                                                                          2.607
              *****If you prefer, all cost elements can be included in a summary table so the user doesn't have to select in advan


             III. System Cost Summaries         Ground-Based
             Table from STHarvest               Mech WT           CTL                              Manual WT
             A. $/ac
                                                             #N/A
                Stump-to-Truck for Primary Products w/o Move-In                         #N/A               1953.67
                Primary Product Move-In Costs*               #N/A                       #N/A                  0.00
                Onto-Truck for Residues w/o Move-In*         #N/A                       #N/A                 82.64
                Residue Move-In Costs*                       #N/A                       #N/A                  0.00
                Total, $/ac                                  #N/A                       #N/A               2036.31
                * If these are to be calculated         Large Log                   Large Log              2036.31

             B. $/BoleCCF
                                                            #N/A
               Stump-to-Truck for Primary Products w/o Move-In                          #N/A                  85.12
               Primary Product Move-In Costs*               #N/A                        #N/A                   0.00
               Onto-Truck for Residues w/o Move-In*         #N/A                        #N/A                   3.60
               Residue Move-In Costs*                       #N/A                        #N/A                   0.00
               Total, $/BoleCCF                             #N/A                        #N/A                  88.72
               * If these are to be calculated         Large Log                    Large Log                 88.72

             C. $/GT of all products
                                                          #N/A
              Stump-to-Truck for Primary Products w/o Move-In                               #N/A              14.79
              Primary Product Move-In Costs*              #N/A                              #N/A               0.00
              Onto-Truck for Residues w/o Move-In*        #N/A                              #N/A               0.63
              Residue Move-In Costs*                      #N/A                              #N/A               0.00
          Total, $/GT of all products                        #N/A                 #N/A             15.41
          * If these are to be calculated               Large Log             Large Log            15.41

Limits   Maximum LLT/ac                       none                                  10 none
         Maximum LLT as % of ALT              none                                  10 none
         Exceeded                                              0                     1                 0
         TreeVol maximums, ft3:
           Chip                                               80                    80                80
           Small Log                                          80                    80                80
           Large Log                                         250                   100               500
           All Log                                           250                     0               500
         Avg Vol                                             250                     0               500
           Exceeded (0=no, 1=yes)                              1                     1                 0
         Slope, %
           maximum                                            40                    40                40
           Exceeded (0=no, 1=yes)                              0                     0                 0
         Yarding distance, ft                                  0                     0                 0
           maximum                            none                  none                  none
           Exceeded (0=no, 1=yes)                              0                     0                 0

         Within all limits (1=yes, #N/A=no)          #N/A                  #N/A                        1

                                              Large Log         Large Log                          0
                                              Large Log         Large Log                          0
         Dykstra note, 23 Feb 2008: The formulas in the immediately preceding row have been corrected by adding the tes
         Previously error indicators could be issued when no actual error condition existed.

                             Wood Density                      0                     0      103.4837768
                          Residue Fraction                     0                     0      0.224797169
                         Hardwood Fraction                     0                     0                1


                                              Bundler                                     Bundler
                                                               0                          Chainsaw
                                                                                          Chipper big
                                                               1                          Chipper small
                                                          236.81                          Fbuncher DriveToTree
                                                          236.81                          Fbuncher SelfLeveling
                                                                                          Fbuncher SwingBoom
                                                                                          Forwarder big
                                                                                          Forwarder small
                                                                                          Harvester big
                                                                                          Harvester small
                                                                                          Loader big
                                                                                          Loader small
                                                                                          Processor big
                                                                                          Processor small
                                                                                          Skidder big
                                                                                          Skidder small
                                                                                          Yarder intermediate
                                                                                          Yarder small
                                   DBH,****
            residue wt/tree,FRACTION                  Height,****    Hardwood
            green lbs              in                 ft             fraction     Wood Density
                                 0                                            0.0       0.00
                                 0                                            0.0       0.00
                      0.224797169                                             1.0    103.48




                                                 4 = State selected from dropdown on interface page
            Clear Cut
            Partial Cut
                                                  0
                                       Select Value
                                                  3     Value from Select buttons.

                                   1 Total      Primary     Residues                           48.253491     14.506311
                                      2036.3067     1953.67       82.64              Cost Per Acre.
                                   0 88.717521        85.12        3.60              Cost Per Bole CCF.
                                   1 15.413693        14.79        0.63              Cost Per GT.

doesn't have to select in advance whether or not to include the move-in and residue bits


                                       Cable                                                   Helicopter
            Manual Log                            Manual WT Manual Log CTL
                                       Manual WT/Log                                                       Length
                                                                                               Manual Tree CTL

                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                                0.00           0.00         #N/A            0.00        0.00          0.00        0.00
                                0.00           0.00         #N/A            0.00        0.00          0.00        0.00
                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                             All Log        All Log      Yard dist       All Log   Large Log       All Log   Large Log


                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                                0.00           0.00         #N/A            0.00        0.00          0.00        0.00
                                0.00           0.00         #N/A            0.00        0.00          0.00        0.00
                               #N/A           #N/A          #N/A           #N/A        #N/A          #N/A        #N/A
                             All Log        All Log      Yard dist       All Log   Large Log       All Log   Large Log


                               #N/A          #N/A            #N/A          #N/A         #N/A         #N/A           #N/A
                               #N/A          #N/A            #N/A          #N/A         #N/A         #N/A           #N/A
                               0.00          0.00            #N/A          0.00         0.00         0.00           0.00
                               0.00          0.00            #N/A          0.00         0.00         0.00           0.00
                                #N/A              1.00         1.00              1.00        1.00            1.00         1.00
                              All Log          All Log     Yard dist          All Log   Large Log         All Log    Large Log

             none                       none             none          none                     10 none                     10
             none                       none             none          none                     10 none                     10
                                    0               0             0                0             1             0             1

                                  80               80            80               80          80               80           80
                                   0                0            80                0          80                0           80
                                   0                0           500                0         100                0          100
                                 250              250           500              250           0              250            0
                                 250              250           500              250           0              250            0
                                   1                1             0                1           1                0            0

                                   40            100             100            100           40           100              40
                                    0              0               0              0            0             0               0
                                    0              0               0              0            0             0               0
             none                               1300            1300           1300         1300         10000           10000
                                    0              1               1              1            1             1               1
                                                                                                             0               0
                       #N/A                #N/A            #N/A          #N/A            #N/A          #N/A            #N/A

             All Log                    All Log      Yard dist   All Log       Large Log            All Log         Large Log
             All Log                    All Log      Yard dist   All Log       Large Log            All Log         Large Log
een corrected by adding the test "if(isna(c73),…),0)", where c=the relevant column.




             Machine Cost Altered       Machine Cost Defaults
                                            236.81 236.81285
                                             71.72 71.722977
                                            216.11 216.11419
                                            145.94 145.94348
ncher DriveToTree                           162.85 162.85424
ncher SelfLeveling                          216.03 216.03016
ncher SwingBoom                             212.32 212.31571
                                            234.79 234.78978
                                            180.69 180.68915
                                            327.91 327.90753
                                            260.17 260.16504
                                            161.24 161.24252
                                            129.54 129.54316
                                            246.52 246.51999
                                            192.44 192.44237
                                            169.49 169.49219
                                            116.01 116.01052
der intermediate                            281.92 281.91744
                                            225.52 225.52082
                                            Inputs


Inputs                                          Move-In Inputs
YardDist, ft one way slope distance       10560 Area, acres               1
Slope, %                                      3 MoveInDist, miles one way 0
PartialCut                                    1 CalcMoveIn                0
CollectOptionalResidues                       1
Elevation, ft                                 0
Inputs for Cut Trees
                                                  Chip Trees                    Large
                                                                   Small Log Trees Log Trees
                                                                   (<=80 ft3)   (>80 ft3)
Suffix for related variables:                     CT               SLT          LLT
Removals, trees/acre                                             0            0 8.62160237
TreeVol, ft3                                                     0            0 266.223139
User-SpecDBH, in
User-SpecTreeHeight, ft
User-SpecWoodDensity, green lb/ft3                               0          0 103.483777
User-SpecResidueWt, fraction of bole wt                          0          0 0.22479717
User-SpecHardwoodFraction
Other Assumptions
MaxManualTreeVol, ft3                       300 his value was changed from 150 on 26 Feb 2008 because the it se
MaxMechTreeVol, ft3                          80
MoistureContentFraction, wet basis         0.50
LogLength, ft                                32 his value might need to be changed for South and North from 32 i
LoadWeight, green tons (logs)                25
LoadWeight, green tons (chips)               25
CTLTrailSpacing, ft                          50
HardwoodCostPremium, fraction              0.05 Change for South and North to 0.05 from 0.20 (West) by Dennis Dy
ResidueRecoveryFraction for WT systems     0.50
ResidueRecoveryFraction for CTL            0.50
Calculated Intermediates
DBH, in                                                         4.1       0.0       35.3
TreeHeight, ft                                                    0         0        123
WoodDensity, green lb/ft3                                      50.0      50.0      103.5
HardwoodFraction                                               0.00      0.00       0.00
ButtDiam, in                                                              3.0
LogsPerTree                                                    1.00      1.00       3.60
LogVol, ft3
CTLLogsPerTree                                                 1.89
CTLLogVol, ft3                                                 0.00
BFperCF                                       5
VolPerAcre, ft3                                                   0         0       2295
BoleWt, GT/ac                                                   0.0       0.0      118.8
ResidueWt, GT/ac                                                0.0       0.0        26.7
ManualMachineSize
MechMachineSize
ChipperSize                                0.00
NonSelfLevelCabDummy                       1.00
CSlopeFB&Harv (Mellgren 90)                0.01
CRemovalsFB&Harv (Mellgren 90)             0.66
CSlopeSkidForwLoadSize (Mellgren 90)       1.00
Chardwood                                                      1.00      1.00       1.00




                                           Page 79
                                                             Inputs


            Tests on Input Indicators
            PartialCut               1
            CollectOptionalResidues1
            CalcMoveIn               0


            Calculated Values
            Small Trees All Log TreesAll Trees
            (<=80 ft3)
            ST            ALT         (none)
                        0 8.62160237           9
                      0.0       266.2      266.2




 150 on 26 Feb 2008 because the it seemed too restrictive.


changed for South and North from 32 in FRCS-West



to 0.05 from 0.20 (West) by Dennis Dykstra, 21 Feb 2008



                     0.0          35.3       35.3
                       0                      123
                     0.0        103.5       103.5
                    0.00         0.00        0.00
                     3.0                     38.3
               #DIV/0!           3.60        3.60
               #DIV/0!          73.93       73.93
                    1.00
                    0.00

                        0        2295        2295
                      0.0       118.8       118.8
                      0.0         26.7        26.7
                                  0.89        0.89
                    0.00




                    1.00          1.00       1.00




                                                             Page 80
                                         Mech WT        CTL            Manual WT      Manual Log
                                                        Ground-Based CTL
                                         Ground-Based Mech WT                         Ground-Based Manual Log
                                                                       Ground-Based Manual WT
I. System Product Summary
                                       Dykstra, 19 Feb 2008: This methodology reports cost of residues recovered and chippe
A. Amounts recovered/ac                I've added summary data in column M which is used by the VBA routine Module1.RunB
Bole volume, CCF/ac                                23.0              0.0             23.0             23.0
Bole weight, GT/ac                                118.8              0.0            118.8            118.8
                                                    0.0
WT residue recovered as part of primary product, GT/ac                                 0.0
Primary Products, GT/ac                           118.8              0.0            118.8            118.8
Optional residue recovered, GT/ac                  13.3              0.0             13.3
                                                  132.1
Total of Primary Products & Optional Residues, GT/ac                 0.0            132.1            118.8

B. Amounts unrecovered and left within the stand/ac
Uncut trees >80cf, CCF/ac                                             23.0
Residues on uncut trees >80cf, GT/ac                                  26.7

Activity fuels (residues) on the ground, GT/ac        26.7             0.0              26.7         26.7

C. Amounts unrecovered and left at the landing/ac
Piled activity fuels (residues), GT/ac                 0.0                               0.0

[D. Check calc: total residues, GT/ac]              40.05            26.70             40.05        26.70

II. System Cost Elements

A. For Primary Products (boles & WT residues), $/CCF of material treated by the activity
Fell&Bunch: trees <=80 cf                         #N/A
Manual Fell, Limb, Buck: all trees                                                                  #N/A
Manual Fell, Limb, Buck: all log trees
Manual Fell, Limb, Buck: trees >80cf              #N/A                                   4.23
Manual Fell: trees <=80 cf                                                               0.00
Manual Fell: chip trees
Harvest: trees <=80 cf                                              #N/A
Skid Bunched: all trees                           #N/A
Skid Unbunched: all trees                                                              75.45        #N/A
Forward: trees <=80 cf                                              #N/A
Yard Unbunched: all trees
Yard CTL: trees <=80 cf
Process: log trees <=80 cf                        #N/A                                   0.00
Load: log trees                                   #N/A                                   5.44       #N/A
Load CTL: log trees <=80 cf                                         #N/A
Chip: chip whole trees                            #N/A                                   0.00
Chip: chip tree boles                                                                               #N/A
Chip CTL: chip tree boles                                           #N/A
Primary Product Move-In Costs, $/CCF              #N/A              #N/A                 0.00       #N/A

B. For Optional Residues, $/GT of additional residue recovered
Bundle: CTL Residues                                                 #N/A
Forward: CTL Residues                                                #N/A
Chip Loose Residues: from log trees <=80 cf         #N/A                                6.19
Chip Bundled Residues: from all trees <=80 cf                        #N/A
Onto-Truck for Residues w/o Move-In, $/GT           #N/A             #N/A               6.19
Residue Move-In Costs, $/GT                      #N/A    #N/A    0.00
Onto-Truck for Residues w/ Move-In, $/GT         #N/A    #N/A    6.19

C. For All Products, $/ac
Fell&Bunch: trees <=80 cf                         #N/A
Manual Fell, Limb, Buck: all trees                                      #N/A
Manual Fell, Limb, Buck: all log trees
Manual Fell, Limb, Buck: trees >80cf              #N/A            97
Manual Fell: trees <=80 cf                                         0
Manual Fell: chip trees
Harvest: trees <=80 cf                                   #N/A
Skid Bunched: all trees                           #N/A
Skid Unbunched: all trees                                       1732    #N/A
Forward: trees <=80 cf                                   #N/A
Yard Unbunched: all trees
Yard CTL: trees <=80 cf
Process: log trees <=80 cf                        #N/A             0
Load: log trees                                   #N/A           125    #N/A
Load CTL: log trees <=80 cf                              #N/A
Chip: chip whole trees                            #N/A             0
Chip: chip tree boles                                                   #N/A
Chip CTL: chip tree boles                                #N/A
                                                  #N/A
Stump-to-Truck for Primary Products w/o Move-In, $/ac    #N/A   1954    #N/A
Primary Product Move-In Costs, $/ac               #N/A   #N/A      0    #N/A
                                                  #N/A
Stump-to-Truck for Primary Products w/ Move-In, $/ac     #N/A   1954    #N/A

Bundle: CTL Residues                                     #N/A
Forward: CTL Residues                                    #N/A
Chip Loose Residues: from log trees <=80 cf      #N/A             83
Chip Bundled Residues: from all trees <=80 cf            #N/A
Onto-Truck for Residues w/o Move-In, $/ac        #N/A    #N/A     83
Residue Move-In Costs, $/ac                      #N/A    #N/A      0
Onto-Truck for Residues w/ Move-In, $/ac         #N/A    #N/A     83


III. System Cost Summaries

A. $/ac
  Stump-to-Truck for Primary Products w/o Move-In#N/A    #N/A   1954    #N/A
  Primary Product Move-In Costs*                 #N/A    #N/A      0    #N/A
  Onto-Truck for Residues w/o Move-In*           #N/A    #N/A     83
  Residue Move-In Costs*                         #N/A    #N/A      0
  Total, $/ac                                    #N/A    #N/A   2036    #N/A
  * If these are to be calculated

B. $/BoleCCF
  Stump-to-Truck for Primary Products w/o Move-In#N/A    #N/A   85.12   #N/A
  Primary Product Move-In Costs*                 #N/A    #N/A    0.00   #N/A
  Onto-Truck for Residues w/o Move-In*           #N/A    #N/A    3.60
  Residue Move-In Costs*                         #N/A    #N/A    0.00
  Total, $/BoleCCF                               #N/A    #N/A   88.72   #N/A
 * If these are to be calculated

C. $/GT of all products
  Stump-to-Truck for Primary Products w/o Move-In#N/A                  #N/A              14.79             #N/A
  Primary Product Move-In Costs*                 #N/A                  #N/A               0.00             #N/A
  Onto-Truck for Residues w/o Move-In*           #N/A                  #N/A               0.63
  Residue Move-In Costs*                         #N/A                  #N/A               0.00
  Total, $/GT of all products                    #N/A                  #N/A              15.41             #N/A
Limits
Maximum LLT/ac                                   none                     10              none             none
Maximum LLT as % of ALT                          none                     10              none             none
  Exceeded (0=no, 1=yes)                            0                      1                 0                0
TreeVol maximums, ft3:
  CT                                               80                     80                80               80
  SLT                                              80                     80                80
  LLT                                             250                    100               500
  ALT                                             250                                      500              250
  all trees                                       250                                      500              250
  Exceeded (0=no, 1=yes)                            1                      1                 0                1
Slope, %
  maximum                                          40                     40                40               40
  Exceeded (0=no, 1=yes)                            0                      0                 0                0
Yarding distance, ft
  maximum                                        none                  none               none             none
  Exceeded (0=no, 1=yes)                            0                     0                  0                0

Within all limits (1=yes, #N/A=no)                   #N/A              #N/A                   1            #N/A


Notes:
1) No macros are used. All calculations are done simultaneously with duplicate sheets (for felling) or duplicate functions (for ch
2) The systems are ordered from left to right in terms of general preference for fuel reduction operations.

Old values for the TreeVol maximums, changed to those above rows 121 and 122) on 23 Feb 2008 by Dennis Dykstra
                                    LLT              250                                  250            250
                                   ALT               150                                  150            150
                              all trees              150                                  150            150
                         Dykstra note: I can't image the purpose of imposing limits on ALT and "all trees" so I've effectively rem
                                        In numerous tests the old limits resulted in nonsensical outcomes.
            WT/Log           Manual WT Manual Log                         Manual WT                  Results for Selected Syste
                             Cable Manual WT Manual Log CTL
            Cable Manual WT/Log           Cable   Cable                               Helicopter
                                                                          Helicopter Manual WT CTL   Ground-Based Manual WT

esidues recovered and chipped per GT of TOTAL product (not just residues)
he VBA routine Module1.RunBatch to calculate residue costs per GT of residues.
                          23.0          23.0         23.0             0.0       23.0       0.0            23.0
                         118.8         118.8       118.8              0.0      118.8       0.0           118.8
                           0.0           0.0                                                               0.0
                         118.8         118.8       118.8              0.0      118.8       0.0           118.8
                                        13.3                                                              13.3
                         118.8         132.1       118.8              0.0      118.8       0.0           132.1


                                                                   23.0                   23.0             0.0
                                                                   26.7                   26.7             0.0

                          26.7          26.7        26.7            0.0         26.7       0.0            26.7


                                          0.0                                                              0.0

                         26.70         40.05       26.70          26.70        26.70     26.70            40.0




                                                                                                          0.00
                                                    #N/A                        #N/A                      0.00
                          #N/A                                                                            0.00
                                        #N/A                                                              4.23
                                        #N/A                                                              0.00
                          #N/A                                                                            0.00
                                                                  #N/A                   #N/A             0.00
                                                                                                          0.00
                                                                                                         75.45
                                                                                                          0.00
                       #DIV/0!       #DIV/0!     #DIV/0!                     #DIV/0!                      0.00
                                                                  #N/A                 #DIV/0!            0.00
                                        #N/A                                                              0.00
                          #N/A          #N/A        #N/A                     #DIV/0!                      5.44
                                                                  #N/A                 #DIV/0!            0.00
                          #N/A          #N/A                                                              0.00
                                                    #N/A          #N/A          #N/A     #N/A             0.00
                                                                                                          0.00
                          #N/A          #N/A        #N/A          #N/A          #N/A     #N/A             0.00


                                                                                                          0.00
                                                                                                          0.00
                                        #N/A                                                              6.19
                                                                                                          0.00
                                        #N/A                                                              6.19
            #N/A                                            0.00
            #N/A                                            6.19


                                                            0.00
                      #N/A             #N/A                 0.00
  #N/A                                                      0.00
            #N/A                                           97.08
            #N/A                                            0.00
  #N/A                                                      0.00
                              #N/A               #N/A       0.00
                                                            0.00
                                                         1731.76
                                                            0.00
#DIV/0!   #DIV/0!   #DIV/0!          #DIV/0!                0.00
                              #N/A             #DIV/0!      0.00
            #N/A                                            0.00
  #N/A      #N/A      #N/A           #DIV/0!              124.83
                              #N/A             #DIV/0!      0.00
  #N/A      #N/A                                            0.00
                      #N/A    #N/A     #N/A      #N/A       0.00
                                                            0.00
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A    1953.67
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A       0.00
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A    1953.67

                                                            0.00
                                                            0.00
            #N/A                                           82.64
                                                            0.00
            #N/A                                           82.64
            #N/A                                            0.00
            #N/A                                           82.64




  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A    1953.67
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A       0.00
            #N/A                                           82.64
            #N/A                                            0.00
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A    2036.31



  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A      85.12
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A       0.00
            #N/A                                            3.60
            #N/A                                            0.00
  #N/A      #N/A      #N/A    #N/A     #N/A      #N/A      88.72
                             #N/A          #N/A         #N/A             #N/A         #N/A     #N/A    14.79
                             #N/A          #N/A         #N/A             #N/A         #N/A     #N/A     0.00
                                           #N/A                                                         0.63
                                           #N/A                                                         0.00
                             #N/A          #N/A         #N/A             #N/A         #N/A     #N/A    15.41

                             none          none         none               10         none       10
                             none          none         none               10         none       10
                                0             0            0                1            0        1

                                80            80           80              80            80      80
                                              80                           80                    80
                                             500                          100                   100
                              250            500          250                           250
                              250            500          250                           250
                                1              0            1               1             1       1

                              100            100          100              40           100      40
                                0              0            0               0             0       0

                             1300          1300         1300             1300        10000     10000
                                1             1            1                1            1         1

                             #N/A          #N/A         #N/A             #N/A         #N/A     #N/A



) or duplicate functions (for chipping).


08 by Dennis Dykstra
                                250          250          250                            250
                                150          150          150                            150
                                150          150          150                            150
all trees" so I've effectively removed them by replacing the old limits with larger values.
Results for Selected System (added by Dennis Dykstra on 12 Feb 2008)
Ground-Based Manual WT



          CCF/ac
          GT/ac
          GT/ac
          GT/ac
          GT/ac
          GT/ac


          CCF/ac
          GT/ac

          GT/ac


          GT/ac

          GT/ac




          $/CCF     Mech Felling, CT & SLT
          $/CCF     Manual Felling, AT
          $/CCF     Manual Felling, ALT
          $/CCF     Manual Felling, LLT
          $/CCF     Manual Felling, SLT
          $/CCF     Manual Felling, CT
          $/CCF     CTL Felling & Processing, ST
          $/CCF     Skid Bunched, AT
          $/CCF     Skid Unbunched, AT
          $/CCF     Forward, ST
          $/CCF     Cable Yard Unbunched, AT
          $/CCF     Cable Yard CTL
          $/CCF     WT Processing, ST
          $/CCF     Load, ALT
          $/CCF     Load, CTL
          $/CCF     Chipping Cost, CT
          $/CCF     Bole Chipping Cost, ALT
          $/CCF     Bole Chipping Cost, CTL
          $/CCF     Primary Product move-in cost


          $/GT
          $/GT
          $/GT
          $/GT
          $/GT
$/GT
$/GT


$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac

$/ac
$/ac
$/ac
$/ac
$/ac
$/ac
$/ac




$/ac
$/ac
$/ac
$/ac
$/ac



$/CCF
$/CCF
$/CCF
$/CCF
$/CCF
$/GT
$/GT
$/GT
$/GT
$/GT
General Inputs                       Dykstra: Notes on modifications for FRCS-South
Slope                            3   and FRCS-North, 24 Feb 2008
RemovalsST, trees/ac             0   1. Feller-Bunchers not in FRCS-West but added for
TreeVolST, ft3                0.00   use in the South and North are in blue.
PartialCut                    1.00   2. Feller-Bunchers from FRCS-West that are
                                     considered irrelevant have been removed by setting
Calculated Intermediates             their relevance values to 0 in the
DBHSLT, in                       0   RelevanceWeightInputs worksheet.
NonSelfLevelCabDummy             1
CSlopeFB&Harv (Mellgren 90)    0.0   3. This worksheet has been completely revised to
CRemovalsFB&Harv (Mellgren 90)0.66   make it easier to update production rates and costs.
                                     4. Many of the Relevance equations on this
Fell-Bunch Calculated Values         worksheet were incorrectly coded and have been
DistBetweenTrees, ft      208.7103   replaced with new coding.
MerchTreeHeight, ft        61.3457




                                                                                            D) Continuous-Disk Sawhea
                                                                                            Cuts
                                                                                            Time/Tree, min
                                                                                            Vol/PMH, ft3
                                                                                            $/PMH
                                                                                            $/CCF
                                                                                            Relevance

                                                                                            E) Hydro-Ax 211 (Hartsough
                                                                                            Trees/Accum
                                                                                            Time/Accum, min
                                                                                            Trees/PMH
                                                                                            Vol/PMH, ft3
                                                                                            $/PMH
                                                                                            $/CCF
Relevance

Spinelli, R., Hartsough, B.R
H) Drive-to-Tree Feller-Bun
Accumulator limit, ft3
Trees/accumulation
Pct down or leaning
Move to fell
Position
Fell
Move/swing to dump
Dump
Other
Time/tree, min
Trees/PMH
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

I) Drive-to-Tree Feller-Bunc
Accumulator limit, ft3
Trees/accumulation
Pct down or leaning
Move to fell
Position
Fell
Move/swing to dump
Dump
Other
Time/tree, min
Trees/PMH
Vol/PMH, ft3
$/PMH
$/CCF
Relevance



Swing-Boom Machines
A) Drott (Johnson, 1979) no
Time/Tree, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
B) Timbco 2520 & Cat 227 (
BoomReach, ft
TreesInReach
Trees/Cycle
Time/Cycle, min
Time/Tree, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

C) JD 693B & Timbco 2518
UnmerchTrees/ha
Unmerch/Merch
BoomReach, ft
TreesInReach
ObsTreesPerCycle
Feller-Bunchers
                                Beginning data row:              10
                                   Ending data row:             300
          Weighted-Average Fell-Bunch Cost, $/CCF:             0.00
              (weighted by Vol/PMH and Relevance)
          Weighted-Average Fell-Bunch Cost, $/PMH:             0.00

                                                                                  Weighting   Weighting
System & Variables     Values    Vol/PMH       $/PMH       $/CCF      Relevance    $/PMH       $/CCF
Drive-to-Tree Machines
A) Melroe Bobcat (Johnson, 1979)
Time per Tree, min          1.93
Vol/PMH, ft3                   0
$/PMH                        163
$/CCF                  #DIV/0!
Relevance                   1.00        0           163   #DIV/0!          1.00 162.854237             0

B) Chainsaw Heads (Greene & McNeel, 1991)
Cuts                        1.1
Time/Tree, min        0.810822
Vol/PMH, ft3                  0
$/PMH                 162.8542
$/CCF                 #DIV/0!
Relevance                  1.00        0            163   #DIV/0!          1.00 162.854237             0

C) Intermittent Circular Sawheads (Greene & McNeel, 1991)
Cuts                           1.01
Time/Tree, min            0.581478
Vol/PMH, ft3                      0
$/PMH                     162.8542
$/CCF                     #DIV/0!
Relevance                      1.00        0      163 #DIV/0!              1.00 162.854237             0

D) Continuous-Disk Sawheads (Greene & McNeel 1991)
Cuts                       1.01
Time/Tree, min         -0.1755
Vol/PMH, ft3                  0
$/PMH                 162.8542
$/CCF                 #DIV/0!
Relevance                  1.00        0       163        #DIV/0!          1.00 162.854237             0

E) Hydro-Ax 211 (Hartsough, 2001)
Trees/Accum                 14.2
Time/Accum, min          1.4166
Trees/PMH              601.4401
Vol/PMH, ft3                   0
$/PMH                  162.8542
$/CCF                  #DIV/0!
Relevance                   1.00           0        163   #DIV/0!          1.00 162.854237             0

F) Bell Model T Chainsaw Head (Greene & McNeel. 1987. Productivity, costs, and levels of butt damage with a Bell Model T fell
Time/Tree, min         0.987191
Vol/PMH, ft3                    0
$/PMH                  162.8542
$/CCF                   #DIV/0!
Relevance                    1.00          0        163   #DIV/0!         1.00 162.854237               0

G) Hydro-Ax 411 (Lanford & Stokes. 1996. Comparison of two thinning systems. Part 2. Productivity and costs. For. Prod. J. 46(
Trees/accumulation           3.5
BA/accumulation, ft2           0
Time/Tree, min         #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                  162.8542
$/CCF                  #DIV/0!
Relevance                   1.00 #DIV/0!         163 #DIV/0!            1.00 162.854237                0

Spinelli, R., Hartsough, B.R., Owende, P.M.O., Ward. S.M. 2002. Productivity and cost of mechanized whole-tree harvesting of f
H) Drive-to-Tree Feller-Buncher, 4-wheeled in hardwood plantation (Spinelli et al. 2002)
Accumulator limit, ft3          22.6
Trees/accumulation              5.04
Pct down or leaning                0
Move to fell                  0.415
Position                           0
Fell                      0.879376
Move/swing to dump            0.311
Dump                            0.06
Other                        0.0784
Time/tree, min            1.743776
Trees/PMH                 34.40809
Vol/PMH, ft3                       0
$/PMH                     162.8542
$/CCF                     #DIV/0!
Relevance                       1.00       0        163 #DIV/0!            1.00 162.854237            0

I) Drive-to-Tree Feller-Buncher, 3-wheeled in hardwood plantation (Spinelli et al. 2002)
Accumulator limit, ft3         11.6
Trees/accumulation             4.35
Pct down or leaning               0
Move to fell                  0.175
Position                          0
Fell                       0.41095
Move/swing to dump            0.114
Dump                          0.045
Other                         0.045
Time/tree, min             0.78995
Trees/PMH                 75.95417
Vol/PMH, ft3                      0
$/PMH                     162.8542
$/CCF                     #DIV/0!
Relevance                      1.00          0      163 #DIV/0!              1.00 162.854237            0



Swing-Boom Machines
A) Drott (Johnson, 1979) not used at present
Time/Tree, min          3.366731
Vol/PMH, ft3                     0
$/PMH                      212.32
$/CCF                    #DIV/0!
Relevance                    1.00          0        212   #DIV/0!         0.00             0            0
B) Timbco 2520 & Cat 227 (Johnson, 1988)
BoomReach, ft                24
TreesInReach               0.36
Trees/Cycle                1.00
Time/Cycle, min       0.376003
Time/Tree, min        0.376003
Vol/PMH, ft3                   0
$/PMH                 212.3157
$/CCF                  #DIV/0!
Relevance                  1.00          0         212   #DIV/0!         1.00 212.315708              0

C) JD 693B & Timbco 2518 (Gingras, 1988)
UnmerchTrees/ha             285
Unmerch/Merch                1.5
BoomReach, ft                 24
TreesInReach          0.358156
ObsTreesPerCycle      6.688944
TreesPerCycle                  1
Trees/PMH             62.99154
Vol/PMH, ft3                   0
$/PMH                 212.3157
$/CCF                 #DIV/0!
Relevance                  1.00          0         212   #DIV/0!         0.00            0            0

D) Timbco (Gonsier & Mandzak, 1987)
Time/Tree, min        0.541767
Vol/PMH, ft3                  0
$/PMH                 216.0302
$/CCF                 #DIV/0!
Relevance                  1.00           0        216   #DIV/0!         1.00 216.030162              0

E) FERIC Generic (Gingras, J.F., 1996. The cost of product sorting during harvesting. FERIC Technical Note TN-245)
Vol/PMH, ft3                   0
$/PMH                 212.3157
$/CCF                  #DIV/0!
Relevance                   1.00          0         212 #DIV/0!            0.00            0           0

F) (Plamondon, J. 1998. Trials of mechanized tree-length harvesting in eastern Canada. FERIC Technical Note TN-273)
Vol/PMH, ft3            105.5979
$/PMH                   212.3157
$/CCF                   201.0605
Relevance                    1.00       106         212     201.06         0.00          0            0

G) Timbco 420 (Hartsough, B., E. Drews, J. McNeel, T. Durston and B. Stokes. 1997. Comparison of mechanized systems for t
Hybrid                         0
Dead                           0
DelayFrac                0.0963
BoomReach, ft                 24
TreesInReach          0.358156
MoveFrac               #DIV/0!
Trees/Accum            #DIV/0!
Move, min/move              2.00
Fell, min/accum        #DIV/0!
Time/Accum, min        #DIV/0!
Time/Tree, min          #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                     212.32
$/CCF                   #DIV/0!
Relevance                   0.00   #DIV/0!         212    #DIV/0!        0.00            0            0

H) Timbco 445C Hydro-Buncher (Wang et al. 2004. Production and cost analysis of a feller-buncher and grapple skidder in cent
Vol/PMH, ft3               -5534
$/PMH                     212.32
$/CCF                       -3.84
Relevance                    1.00    -5534          212       -3.84       0.00             0          0
Note: DistBetweenTrees is capped at 30 ft because larger values give unreasonable results.

I) Swing-Boom Tracked Feller-Buncher in hardwood plantation (Spinelli et al. 2002)
Accumulator limit, ft3       14.8
Trees/accumulation           6.85
Pct down or leaning             0
Move to fell              0.0708
Position                0.39234
Fell                   0.081705
Move/swing to dump         0.114
Dump                       0.045
Other                      0.045
Time/tree, min         0.748845
Trees/PMH              80.12339
Vol/PMH, ft3                    0
$/PMH                  212.3157
$/CCF                  #DIV/0!
Relevance                    1.00         0      212 #DIV/0!              1.00 212.315708             0




User-Defined Feller-Buncher
Vol/PMH, ft3               0.001
$/PMH
$/CCF                       0.00
Relevance                   0.00             0        0       0.00       0.00            0            0
             Weighting
              Divisor




                       0




                       0




                       0




                       0




                       0

damage with a Bell Model T feller-buncher. For. Prod. J. 37(11/12):70-74.)
                        0

tivity and costs. For. Prod. J. 46(11-12):47-53)




                        0

anized whole-tree harvesting of fast-growing eucalypt stands. IJFE 13(2):49-60.




                        0




                        0




                        0
                        0




                        0




                        0

echnical Note TN-245)



                        0

 Technical Note TN-273)



                        0

son of mechanized systems for thinning ponderosa pine and mixed conifer stands. Forest Products Journal 47(11/12):59-68)
                       0

cher and grapple skidder in central Appalachian hardwood forests. For. Prod. J. 54(12)159-167)



                       0




                       0




                       0
al 47(11/12):59-68)
General Inputs                         Dykstra: Notes on modifications for FRCS-South
Slope                              3   and FRCS-North, 24 Feb 2008
Removals, trees/ac         8.621602    1. Manual felling studies added for use in the South
TreeVol, ft3                  266.22   and North and not already in FRCS-West are in
PartialCut                      1.00   blue.
                                       2. Manual felling studies from FRCS-West that are
                                       considered irrelevant have been removed by setting
Calculated Intermediates               their relevance values to 0 in the
DBH, in                    35.34867    RelevanceWeightInputs worksheet.
LogsPerTree                3.601032    3. This worksheet has been completely revised to
                                       make it easier to update yarding systems,
                                       production rates, and costs.
Felling Calculated Values
WalkDist, ft              71.08041
MerchTreeHeight, ft              0




                                                                                              Time/Tree, min
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance

                                                                                              E) Lortz et al. 1997. Manual
                                                                                              Time/Tree, min
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance
                                                                                              Note: The "Limb and Top" c
User-Defined Felling Only (A
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Manual Felling Only (All Trees)
                                  Beginning data row:               10
                                    Ending data row:               200
               Weighted-Average Felling Cost, $/CCF:              1.21
                (weighted by Vol/PMH and Relevance)
               Weighted-Average Felling Cost, $/PMH:             71.72

                                                                                     Weighting      Weighting
System & Variables      Values   Vol/PMH          $/PMH       $/CCF      Relevance    $/PMH          $/CCF
A) (McNeel, 1994)
SelectionTime/Tree, min     3.63
ClearcutTime/Tree, min      4.03
Time/Tree, min              3.63
Vol/PMH, ft3               4405
$/PMH                     71.72
$/CCF                       1.63
Relevance                   0.23      4405              72        1.63        0.23 16.1505134 1615.05134

B) (Peterson, 1987)
Time/Tree, min                 2.40
Vol/PMH, ft3                  6656
$/PMH                        71.72
$/CCF                          1.08
Relevance                      0.23       6656          72        1.08        0.00              0             0

C) (Keatley, 2000)
Time/Tree, min                 3.90
Vol/PMH, ft3                  4096
$/PMH                        71.72
$/CCF                          1.75
Relevance                      0.23       4096          72        1.75        0.00              0             0

D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of harvesting system performance.
Time/Tree, min               5.09
Vol/PMH, ft3                3140
$/PMH                      71.72
$/CCF                        2.28
Relevance                    0.23     3140          72       2.28       0.00           0             0

E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
Time/Tree, min           2.140081
Vol/PMH, ft3             7463.917
$/PMH                        71.72
$/CCF                          0.96
Relevance                      0.23        7464          72        0.96        0.23 16.1505134 1615.05134
Note: The "Limb and Top" component from the study is not included in the Time/Tree equation.
User-Defined Felling Only (All Trees)
Vol/PMH, ft3                     1
$/PMH                           72
$/CCF                    7172.30
Relevance                     0.00      1   72   7172.30   0.00   0   0
                            Manual Felling, Limbing, and Bucking (All Trees)
                                                             Beginning data row:                10
                                                               Ending data row:                200
                                             Weighted-Average FLB Cost, $/CCF:                4.23
                                           (weighted by Vol/PMH and Relevance)
                                            Weighted-Average FLB Cost, $/PMH:                71.72

               Weighting                                                                                        Weighting
                Divisor     System & Variables       Values    Vol/PMH       $/PMH       $/CCF Relevance          $/PMH
                            A) (Kellogg-Olsen-Hargrave, 1986)
                            EastsideAdjustment           1.00
                            ClearcutAdjustment           0.90
                            Time/Tree, min             29.12
                            Vol/PMH, ft3                  549
                            $/PMH                      71.72
                            $/CCF                      13.07
               991.936462   Relevance                    0.23         549           72      13.07         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<90,1,IF(treevol<180,2

                          B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience from the Willame
                          Limbs                           31.5
                          Logs                            3.60
                          Wedge                           0.02
                       0 Corridor                         0.21
                          NotBetweenOpenings                 1
                          Openings                           0
                          HeavyThin                          0
                          DelayFrac                       0.25
                          Time/Tree, min                  7.73
                          Vol/PMH, ft3                   2065
                       0 $/PMH                          71.72
                          $/CCF                           3.47
                          Relevance
harvesting system performance. FERIC Technical Report0.23  TR-120) 2065            72       3.47        0.00            0
                          Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<1,0,IF(treevol<2,-1+tre

                            C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harvesting system
                            DelayFrac                  0.197
                       0    Time/Tree, min             11.28
                            Vol/PMH, ft3                1416
7(10):59-63.                $/PMH                      71.72
                            $/CCF                        5.06
                            Relevance                    0.23       1416            72       5.06         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<5,0,IF(treevol<15,-0.5

               1680.71791   D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in central Appala
                            Vol/PMH, ft3         -221.292
                            $/PMH                    71.72
                            $/CCF                  -32.41
                            Relevance                 0.23        -221          72      -32.41        0.23 16.1505134

                            E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
                            Time/Tree, min           9.420101
                            Vol/PMH, ft3             1695.671
                            $/PMH                        71.72
                            $/CCF                          4.23
    Relevance                    0.23      1696        72        4.23        0.23 16.1505134
    Note: This version includes the "Limb and Top" component from the study in the Time/Tree equation.




    User-Defined Felling-Limbing-Bucking (All Trees)
    Vol/PMH, ft3                    1
    $/PMH                          72
    $/CCF                    7172.30
0   Relevance                    0.00          1        72    7172.30       0.00            0
              Weighting      Weighting
               $/CCF          Divisor




                        0            0
treevol<90,1,IF(treevol<180,2-treevol/90,0))

s: experience from the Willamette Young Stand Project. Research Contribution 21. Forest Research Laboratory, Oregon State University, Co




                        0             0
treevol<1,0,IF(treevol<2,-1+treevol/1,IF(treevol<70,1,IF(treevol<140,2-treevol/70,0))))

ummary of harvesting system performance. FERIC Technical Report TR-120)




                        0            0
treevol<5,0,IF(treevol<15,-0.5+treevol/10,IF(treevol<90,1,IF(treevol<180,2-treevol/90,0))))

able skidding in central Appalachian hardwood forests. For. Prod. J. 54(12):45-51.)



                        0             0

or. Prod. J. 47(10):59-63.
            1615.05134   381.82954
Time/Tree equation.




                    0           0
ory, Oregon State University, Corvallis.)
General Inputs                         Dykstra: Notes on modifications for FRCS-South
Slope                              3   and FRCS-North, 24 Feb 2008
Removals, trees/ac         8.621602    1. Manual felling studies added for use in the South
TreeVol, ft3                  266.22   and North and not already in FRCS-West are in
PartialCut                      1.00   blue.
                                       2. Manual felling studies from FRCS-West that are
                                       considered irrelevant have been removed by setting
Calculated Intermediates               their relevance values to 0 in the
DBH, in                    35.34867    RelevanceWeightInputs worksheet.
LogsPerTree                3.601032    3. This worksheet has been completely revised to
                                       make it easier to update yarding systems,
                                       production rates, and costs.
Felling Calculated Values
WalkDist, ft              71.08041
MerchTreeHeight, ft       98.15311




                                                                                              Time/Tree, min
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance

                                                                                              E) Lortz et al. 1997. Manual
                                                                                              Time/Tree, min
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance
                                                                                              Note: The "Limb and Top" c
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Manual Felling Only (Large Trees)
                                 Beginning data row:                10
                                   Ending data row:                200
              Weighted-Average Felling Cost, $/CCF:               1.44
               (weighted by Vol/PMH and Relevance)
             Weighted-Average Felling Cost, $/PMH:               71.72

                                                                                     Weighting      Weighting
System & Variables      Values   Vol/PMH          $/PMH       $/CCF      Relevance    $/PMH          $/CCF
A) (McNeel, 1994)
SelectionTime/Tree, min     3.63
ClearcutTime/Tree, min      4.03
Time/Tree, min              3.63
Vol/PMH, ft3               4405
$/PMH                     71.72
$/CCF                       1.63
Relevance                   1.00      4405              72        1.63        1.00 71.7229765 7172.29765

B) (Peterson, 1987)
Time/Tree, min                 2.40
Vol/PMH, ft3                  6656
$/PMH                        71.72
$/CCF                          1.08
Relevance                      1.00       6656          72        1.08        0.00              0             0

C) (Keatley, 2000)
Time/Tree, min                 3.90
Vol/PMH, ft3                  4096
$/PMH                        71.72
$/CCF                          1.75
Relevance                      1.00       4096          72        1.75        0.00              0             0

D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of harvesting system performance.
Time/Tree, min               5.09
Vol/PMH, ft3                3140
$/PMH                      71.72
$/CCF                        2.28
Relevance                    0.00     3140          72       2.28       0.00           0             0

E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
Time/Tree, min           2.140081
Vol/PMH, ft3             7463.917
$/PMH                        71.72
$/CCF                          0.96
Relevance                      0.23        7464          72        0.96        0.23 16.1505134 1615.05134
Note: The "Limb and Top" component from the study is not included in the Time/Tree equation.
User-Defined Felling Only (Large Trees)
Vol/PMH, ft3                0.001
$/PMH                          72
$/CCF                  ########
Relevance                    0.00         0   72 ########   0.00   0   0
                            Manual Felling, Limbing, and Bucking (Large Trees)
                                                             Beginning data row:                10
                                                               Ending data row:                200
                                             Weighted-Average FLB Cost, $/CCF:                4.23
                                           (weighted by Vol/PMH and Relevance)
                                            Weighted-Average FLB Cost, $/PMH:                71.72

               Weighting                                                                                        Weighting
                Divisor     System & Variables       Values    Vol/PMH       $/PMH       $/CCF Relevance          $/PMH
                            A) (Kellogg-Olsen-Hargrave, 1986)
                            EastsideAdjustment           1.00
                            ClearcutAdjustment           0.90
                            Time/Tree, min             29.12
                            Vol/PMH, ft3                  549
                            $/PMH                      71.72
                            $/CCF                      13.07
               4405.10056   Relevance                    1.00         549           72      13.07         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<90,1,IF(treevol<180,2

                          B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience from the Willame
                          Limbs                           31.5
                          Logs                            3.60
                          Wedge                           0.02
                       0 Corridor                         0.21
                          NotBetweenOpenings                 1
                          Openings                           0
                          HeavyThin                          0
                          DelayFrac                       0.25
                          Time/Tree, min                  7.73
                          Vol/PMH, ft3                   2065
                       0 $/PMH                          71.72
                          $/CCF                           3.47
                          Relevance
harvesting system performance. FERIC Technical Report0.23  TR-120) 2065            72       3.47        0.00            0
                          Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<1,0,IF(treevol<2,-1+tre

                            C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harvesting system
                            DelayFrac                  0.197
                       0    Time/Tree, min             11.28
                            Vol/PMH, ft3                1416
7(10):59-63.                $/PMH                      71.72
                            $/CCF                        5.06
                            Relevance                    0.23       1416            72       5.06         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<5,0,IF(treevol<15,-0.5

               1680.71791   D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in central Appala
                            Vol/PMH, ft3         -221.292
                            $/PMH                    71.72
                            $/CCF                  -32.41
                            Relevance                 0.23        -221          72      -32.41        0.23 16.1505134

                            E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
                            Time/Tree, min           9.420101
                            Vol/PMH, ft3                  1696
                            $/PMH                        71.72
                            $/CCF                          4.23
    Relevance                 0.23      1696         72       4.23   0.23 16.1505134




    User-Defined Felling-Limbing-Bucking (Large Trees)
    Vol/PMH, ft3               0.001
    $/PMH                          72
    $/CCF                  ########
0   Relevance                    0.00         0        72 ########   0.00         0
              Weighting      Weighting
               $/CCF          Divisor




                        0            0
treevol<90,1,IF(treevol<180,2-treevol/90,0))

s: experience from the Willamette Young Stand Project. Research Contribution 21. Forest Research Laboratory, Oregon State University, Co




                        0             0
treevol<1,0,IF(treevol<2,-1+treevol/1,IF(treevol<70,1,IF(treevol<140,2-treevol/70,0))))

ummary of harvesting system performance. FERIC Technical Report TR-120)




                        0            0
treevol<5,0,IF(treevol<15,-0.5+treevol/10,IF(treevol<90,1,IF(treevol<180,2-treevol/90,0))))

able skidding in central Appalachian hardwood forests. For. Prod. J. 54(12):45-51.)



                        0             0

or. Prod. J. 47(10):59-63.
1615.05134   381.82954




        0           0
ory, Oregon State University, Corvallis.)
Whole-tree felling of small trees       Dykstra: Notes on modifications for FRCS-South
Fell-limb-buck large trees              and FRCS-North, 24 Feb 2008
                                        1. Manual felling studies added for use in the South
General Inputs-ST                       and North and not already in FRCS-West are in
Slope                               3   blue.
Removals, trees/ac          8.621602    2. Manual felling studies from FRCS-West that are
TreeVolST, ft3                   0.00   considered irrelevant have been removed by setting
PartialCut                       1.00   their relevance values to 0 in the
                                        RelevanceWeightInputs worksheet.
Calculated Intermediates-ST             3. This worksheet has been completely revised to
DBH, in                            0    make it easier to update yarding systems,
LogsPerTree                #DIV/0!      production rates, and costs.



General Inputs-LT
Slope                               3
Removals, trees/ac          8.621602
TreeVol, ft3                   266.22
PartialCut                       1.00

Calculated Intermediates-LT
DBH, in                   35.34867
LogsPerTree               3.601032



Felling Calculated Values-All Trees
WalkDist, ft               71.08041
MerchTreeHeight, ft        98.15311



                                                                                               Time/Tree, min
                                                                                               Vol/PMH, ft3
                                                                                               $/PMH
                                                                                               $/CCF
                                                                                               Relevance

                                                                                               E) Lortz et al. 1997. Manual
                                                                                               Time/Tree, min
                                                                                               Vol/PMH, ft3
                                                                                               $/PMH
                                                                                               $/CCF
                                                                                               Relevance
                                                                                               Note: The "Limb and Top" c
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Manual Whole-Tree Felling (Small Trees)
                               Beginning data row:                  10
                                  Ending data row:                 200
            Weighted-Average Felling Cost, $/CCF:                 0.00
             (weighted by Vol/PMH and Relevance)
            Weighted-Average Felling Cost, $/PMH:                71.72

                                                                                     Weighting      Weighting
System & Variables      Values    Vol/PMH         $/PMH       $/CCF      Relevance    $/PMH          $/CCF
A) (McNeel, 1994)
SelectionTime/Tree, min     0.99
ClearcutTime/Tree, min      1.13
Time/Tree, min              0.99
Vol/PMH, ft3                    0
$/PMH                      71.72
$/CCF                   #DIV/0!
Relevance                   1.00         0              72    #DIV/0!         1.00 71.7229765                 0

B) (Peterson, 1987)
Time/Tree, min                0.33
Vol/PMH, ft3                      0
$/PMH                        71.72
$/CCF                     #DIV/0!
Relevance                     1.00            0         72    #DIV/0!         0.00              0             0

C) (Keatley, 2000)
Time/Tree, min                3.09
Vol/PMH, ft3                      0
$/PMH                        71.72
$/CCF                     #DIV/0!
Relevance                     1.00            0         72    #DIV/0!         0.00              0             0

D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of harvesting system performance.
Time/Tree, min          #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                      71.72
$/CCF                   #DIV/0!
Relevance                   1.00 #DIV/0!            72 #DIV/0!          0.00           0             0

E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
Time/Tree, min                     0
Vol/PMH, ft3             #DIV/0!
$/PMH                        71.72
$/CCF                    #DIV/0!
Relevance                      1.00 #DIV/0!              72 #DIV/0!            1.00 71.7229765                0
Note: The "Limb and Top" component from the study is not included in the Time/Tree equation.
User-Defined Whole-Tree Felling (Small Trees)
Vol/PMH, ft3             0.001
$/PMH                         72
$/CCF                ########
Relevance                  0.00           0     72 ########   0.00   0   0
                            Manual Felling, Limbing, and Bucking (Large Trees)
                                                             Beginning data row:                10
                                                               Ending data row:                200
                                             Weighted-Average FLB Cost, $/CCF:                4.23
                                           (weighted by Vol/PMH and Relevance)
                                            Weighted-Average FLB Cost, $/PMH:                71.72

               Weighting                                                                                        Weighting
                Divisor     System & Variables       Values    Vol/PMH       $/PMH       $/CCF Relevance          $/PMH
                            A) (Kellogg-Olsen-Hargrave, 1986)
                            EastsideAdjustment           1.00
                            ClearcutAdjustment           0.90
                            Time/Tree, min             29.12
                            Vol/PMH, ft3                  549
                            $/PMH                      71.72
                            $/CCF                      13.07
                       0    Relevance                    0.23         549           72      13.07         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<90,1,IF(treevol<180,2

                          B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience from the Willame
                          Limbs                           31.5
                          Logs                            3.60
                          Wedge                           0.02
                       0 Corridor                         0.21
                          NotBetweenOpenings                 1
                          Openings                           0
                          HeavyThin                          0
                          DelayFrac                       0.25
                          Time/Tree, min                  7.73
                          Vol/PMH, ft3                   2065
                       0 $/PMH                          71.72
                          $/CCF                           3.47
                          Relevance
harvesting system performance. FERIC Technical Report0.23  TR-120) 2065            72       3.47        0.00            0
                          Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<1,0,IF(treevol<2,-1+tre

                            C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harvesting system
                            DelayFrac                  0.197
                       0    Time/Tree, min             11.28
                            Vol/PMH, ft3                1416
7(10):59-63.                $/PMH                      71.72
                            $/CCF                        5.06
                            Relevance                    0.23       1416            72       5.06         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<5,0,IF(treevol<15,-0.5

                       0    D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in central Appala
                            Vol/PMH, ft3         -582.111
                            $/PMH                    71.72
                            $/CCF                  -12.32
                            Relevance                 0.23        -582          72      -12.32        0.23 16.1505134

                            E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
                            Time/Tree, min           9.420101
                            Vol/PMH, ft3                  1696
                            $/PMH                        71.72
                            $/CCF                          4.23
    Relevance                 0.23      1696         72       4.23   0.23 16.1505134




    User-Defined Felling-Limbing-Bucking (Large Trees)
    Vol/PMH, ft3               0.001
    $/PMH                          72
    $/CCF                  ########
0   Relevance                    0.00         0        72 ########   0.00         0
              Weighting      Weighting
               $/CCF          Divisor




                        0            0
treevol<90,1,IF(treevol<180,2-treevol/90,0))

s: experience from the Willamette Young Stand Project. Research Contribution 21. Forest Research Laboratory, Oregon State University, Co




                        0             0
treevol<1,0,IF(treevol<2,-1+treevol/1,IF(treevol<70,1,IF(treevol<140,2-treevol/70,0))))

ummary of harvesting system performance. FERIC Technical Report TR-120)




                        0            0
treevol<5,0,IF(treevol<15,-0.5+treevol/10,IF(treevol<90,1,IF(treevol<180,2-treevol/90,0))))

able skidding in central Appalachian hardwood forests. For. Prod. J. 54(12):45-51.)



                        0             0

or. Prod. J. 47(10):59-63.
1615.05134   381.82954




        0           0
ory, Oregon State University, Corvallis.)
Whole-tree felling of chip trees        Dykstra: Notes on modifications for FRCS-South
Fell-limb-buck other trees              and FRCS-North, 24 Feb 2008
                                        1. Manual felling studies added for use in the South
General Inputs-CT                       and North and not already in FRCS-West are in
Slope                               3   blue.
Removals, trees/ac          8.621602    2. Manual felling studies from FRCS-West that are
TreeVol, ft3                     0.00   considered irrelevant have been removed by setting
PartialCut                       1.00   their relevance values to 0 in the
                                        RelevanceWeightInputs worksheet.
Calculated Intermediates-CT             3. This worksheet has been completely revised to
DBH, in                     4.12479     make it easier to update yarding systems,
LogsPerTree                       1     production rates, and costs.

Felling Calculated Values-ALT
WalkDist, ft               71.08041
MerchTreeHeight, ft        98.15311



General Inputs-ALT
Slope                               3
Removals, trees/ac          8.621602
TreeVol, ft3                   266.22
PartialCut                       1.00

Calculated Intermediates-ALT
DBH, in                   35.34867
LogsPerTree               3.601032

Felling Calculated Values-ALT
WalkDist, ft               71.08041
MerchTreeHeight, ft        98.15311

                                                                                               Time/Tree, min
                                                                                               Vol/PMH, ft3
                                                                                               $/PMH
                                                                                               $/CCF
                                                                                               Relevance

                                                                                               E) Lortz et al. 1997. Manual
                                                                                               Time/Tree, min
                                                                                               Vol/PMH, ft3
                                                                                               $/PMH
                                                                                               $/CCF
                                                                                               Relevance
                                                                                               Note: The "Limb and Top" c
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Manual Whole-Tree Felling (Chip Trees)
                               Beginning data row:                  10
                                  Ending data row:                 200
            Weighted-Average Felling Cost, $/CCF:                 0.00
             (weighted by Vol/PMH and Relevance)
            Weighted-Average Felling Cost, $/PMH:                71.72

                                                                                     Weighting      Weighting
System & Variables      Values    Vol/PMH         $/PMH       $/CCF      Relevance    $/PMH          $/CCF
A) (McNeel, 1994)
SelectionTime/Tree, min     1.29
ClearcutTime/Tree, min      1.46
Time/Tree, min              1.29
Vol/PMH, ft3                    0
$/PMH                      71.72
$/CCF                   #DIV/0!
Relevance                   1.00         0              72    #DIV/0!         1.00 71.7229765                 0

B) (Peterson, 1987)
Time/Tree, min                0.38
Vol/PMH, ft3                      0
$/PMH                        71.72
$/CCF                     #DIV/0!
Relevance                     1.00            0         72    #DIV/0!         0.00              0             0

C) (Keatley, 2000)
Time/Tree, min                3.20
Vol/PMH, ft3                      0
$/PMH                        71.72
$/CCF                     #DIV/0!
Relevance                     1.00            0         72    #DIV/0!         0.00              0             0

D) (Andersson, B. and G. Young, 1998. Harvesting coastal second growth forests: summary of harvesting system performance.
Time/Tree, min          #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                      71.72
$/CCF                   #DIV/0!
Relevance                   1.00 #DIV/0!            72 #DIV/0!          0.00           0             0

E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
Time/Tree, min                     0
Vol/PMH, ft3             #DIV/0!
$/PMH                        71.72
$/CCF                    #DIV/0!
Relevance                      1.00 #DIV/0!              72 #DIV/0!            1.00 71.7229765                0
Note: The "Limb and Top" component from the study is not included in the Time/Tree equation.
User-Defined Whole-Tree Felling (Chip Trees)
Vol/PMH, ft3             0.001
$/PMH                         72
$/CCF                ########
Relevance                  0.00           0    72 ########   0.00   0   0
                            Manual Felling, Limbing, and Bucking (All Log Trees)
                                                             Beginning data row:                10
                                                               Ending data row:                200
                                             Weighted-Average FLB Cost, $/CCF:                4.23
                                           (weighted by Vol/PMH and Relevance)
                                            Weighted-Average FLB Cost, $/PMH:                71.72

               Weighting                                                                                        Weighting
                Divisor     System & Variables       Values    Vol/PMH       $/PMH       $/CCF Relevance          $/PMH
                            A) (Kellogg-Olsen-Hargrave, 1986)
                            EastsideAdjustment           1.00
                            ClearcutAdjustment           0.90
                            Time/Tree, min             29.12
                            Vol/PMH, ft3                  549
                            $/PMH                      71.72
                            $/CCF                      13.07
                       0    Relevance                    0.23         549           72      13.07         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<90,1,IF(treevol<180,2

                          B) (Kellogg, L., M. Miller and E. Olsen. 1999. Skyline thinning production and costs: experience from the Willame
                          Limbs                           31.5
                          Logs                            3.60
                          Wedge                           0.02
                       0 Corridor                         0.21
                          NotBetweenOpenings                 1
                          Openings                           0
                          HeavyThin                          0
                          DelayFrac                       0.25
                          Time/Tree, min                  7.73
                          Vol/PMH, ft3                   2065
                       0 $/PMH                          71.72
                          $/CCF                           3.47
                          Relevance
harvesting system performance. FERIC Technical Report0.23  TR-120) 2065            72       3.47        0.00            0
                          Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<1,0,IF(treevol<2,-1+tre

                            C) (Andersson, B. and G. Young, 98. Harvesting coastal second growth forests: summary of harvesting system
                            DelayFrac                  0.197
                       0    Time/Tree, min             11.28
                            Vol/PMH, ft3                1416
7(10):59-63.                $/PMH                      71.72
                            $/CCF                        5.06
                            Relevance                    0.23       1416            72       5.06         0.00            0
                            Weight relaxed at upper end to allow extrapolation to larger trees. Original was IF(treevol<5,0,IF(treevol<15,-0.5

                       0    D) Hardwood FLB (Wang et al. 2004. Productivity and cost of manual felling and cable skidding in central Appala
                            Vol/PMH, ft3         -582.111
                            $/PMH                    71.72
                            $/CCF                  -12.32
                            Relevance                 0.23        -582          72      -12.32        0.23 16.1505134

                            E) Lortz et al. 1997. Manual felling time and productivity in southern pine forests. For. Prod. J. 47(10):59-63.
                            Time/Tree, min           9.420101
                            Vol/PMH, ft3                  1696
                            $/PMH                        71.72
                            $/CCF                          4.23
    Relevance                  0.23      1696          72       4.23   0.23 16.1505134




    User-Defined Felling-Limbing-Bucking (All Log Trees)
    Vol/PMH, ft3               0.001
    $/PMH                          72
    $/CCF                  ########
0   Relevance                    0.00          0         72 ########   0.00         0
              Weighting      Weighting
               $/CCF          Divisor




                        0            0
treevol<90,1,IF(treevol<180,2-treevol/90,0))

s: experience from the Willamette Young Stand Project. Research Contribution 21. Forest Research Laboratory, Oregon State University, Co




                        0             0
treevol<1,0,IF(treevol<2,-1+treevol/1,IF(treevol<70,1,IF(treevol<140,2-treevol/70,0))))

ummary of harvesting system performance. FERIC Technical Report TR-120)




                        0            0
treevol<5,0,IF(treevol<15,-0.5+treevol/10,IF(treevol<90,1,IF(treevol<180,2-treevol/90,0))))

able skidding in central Appalachian hardwood forests. For. Prod. J. 54(12):45-51.)



                        0             0

or. Prod. J. 47(10):59-63.
1615.05134   381.82954




        0           0
ory, Oregon State University, Corvallis.)
General Inputs                             Dykstra: Notes on modifications for FRCS-South
Slope, %                               3   and FRCS-North, 21 Feb 2008
YardDist, ft                      10560    1. Yarding systems added for the South and North
TreeVol, ft3                     266.22    variants are shown in blue.
TreeVolST, ft3                      0.00   2. Many of the yarding systems from the West
PartialCut                             1   variant have been removed by setting their
WoodDensity, lb/ft3            103.4838    relevance values to 0 in the RelevanceWeightInputs
WoodDensityST, lb/ft3                  0   worksheet.
LogLength, ft                         32   3. This worksheet has been completely revised to
                                           make it easier to update yarding systems,
Calculated Intermediates                   production rates, and costs.
LogVol, ft3                    73.92968
CTLLogVol, ft3                         0
VolPerAcre, ft3                 2295.27
YarderCTLLogVol, ft3                 0.0
VolPerAcreST, ft3                      0
LogsPerTree                         3.60
MachineSize                     0.88741
BFperCF                                5

Cable Yarding Inputs
LatDist, ft                          35
TurnArea, ft2                       800

Yarding Calculated Values
AreaLimitedTurnVol, ft3   42.15372
YarderHourlyCost, $/PMH   275.5678
YarderCapacity, ft3           83.71
YarderCapacityST, ft3     #DIV/0!

Corridor and Landing Change Costs
Clearcut corridor & landing changes                 Jammer     Running       Live
Tailblock spacing, ft                                    50         70         70
Area/line shift, ac                                   24.24      12.73      12.73
Line shift time, ph                                    0.50       0.25       0.50
Line shift cost, $/CCF                                 0.20       0.24       0.47
Area/landing, ac                                               9047.79    9047.79
Landing shift time, ph                                            2.00       2.00
Landing shift cost, $/CCF                                         0.00       0.00
Total changeover cost, $/CCF                            0.20      0.24       0.47

Partial cut corridor changes               Running/Shotgun           Live/Standing
Corridor spacing, ft                                   150                     150
Area/corridor change, ac                             72.73                   72.73
Corridor change time, PMH                             1.00                    1.50
Corridor change cost, $/CCF                           0.17                    0.25
Relevance

F) LinkBelt 78 Shotgun Live
YarderCapacity, ft3
LatDistCC, ft
TurnVol, ft3
Logs
TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance

G) Washington SLH78 (And

YarderCapacity, ft3
TurnVol, ft3
Logs
DelayFrac
TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance

H) User-Defined Clearcut, U
YarderCapacity, ft3
TurnVol, ft3
Logs
TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance
Cable Yarding, Clearcut, Unbunched (CYCCU)
                      Beginning data row:       8
                         Ending data row:     300
  Weighted-Average Yarding Cost, $/CCF:   4149.67
    (weighted by Vol/PMH and Relevance)
                                                                   Weighting Weighting
System & Variables       Values    Vol/PMH      $/CCF     Relevance Product   Divisor
A) Idaho Jammer (Schillings, 1969)
Logs                            1
TurnVol, ft3                   74
TurnTime, min              30.45
Vol/PMH, ft3                  146
$/PMH                         226
Yarding $/CCF             154.80
Change/Shift $/CCF           0.20
$/CCF                     155.00
Relevance                    0.52       146      155.00        0.00        0         0

B) Idaho Jammer (Hensel & Johnson, 1979)
Logs                          1
TurnVol, ft3                 74
TurnTime, min             21.04
Vol/PMH, ft3                211
$/PMH                       226
Yarding $/CCF           106.98
Change/Shift $/CCF         0.20
$/CCF                   107.19
Relevance                  1.00       211        107.19        0.00        0         0

C) LinkBelt 98 Live Skyline (Hensel & Johnson, 1979)
YarderCapacity, ft3             84
TurnVol, ft3                    84
Logs                          1.13
TurnTime, min               973.56
Vol/PMH, ft3                     5
$/PMH                          276
Yarding $/CCF             5341.76
Change/Shift $/CCF            0.47
$/CCF                     5342.23
Relevance                     1.00         5 5342.23           0.00        0         0

D) Skagit GT3 Running Skyline (Hensel & Johnson, 1979)
YarderCapacity, ft3           84
TurnVol, ft3                  84
Logs                        1.13
TurnTime, min           756.26
Vol/PMH, ft3                   7
$/PMH                        276
Yarding $/CCF          4149.43
Change/Shift $/CCF          0.24
$/CCF                  4149.67
Relevance                   1.00          7 4149.67            1.00 27558.36 6.641098

E) Skagit GT3 Running Skyline (Gardner, 1980)
YarderCapacity, ft3           84
LatDistCC, ft                 5
TurnVol, ft3                 84
Logs                       1.13
TurnTime, min         232834.60
Vol/PMH, ft3                  0
$/PMH                       276
Yarding $/CCF         ########
Change/Shift $/CCF         0.24
$/CCF                 ########
Relevance                  0.00            0 ########       0.00          0         0

F) LinkBelt 78 Shotgun Live Skyline (Gardner, 1980)
YarderCapacity, ft3            84
LatDistCC, ft                    5
TurnVol, ft3                   84
Logs                         1.13
TurnTime, min             1728.21
Vol/PMH, ft3                     3
$/PMH                         276
Yarding $/CCF             9482.38
Change/Shift $/CCF           0.47
$/CCF                     9482.85
Relevance                    0.00          3 9482.85        0.00          0         0

G) Washington SLH78 (Andersson, B. and G. Young. 1998. Harvesting coastal second growth forests: summary of harvesting s
                              476
Observed TurnVol, cf (not used)
YarderCapacity, ft3            84
TurnVol, ft3                   84
Logs                         1.13
DelayFrac                   0.042
TurnTime, min               38.08
Vol/PMH, ft3                  132
$/PMH                         276
Yarding $/CCF             208.95
Change/Shift $/CCF           0.24
$/CCF                     209.19
Relevance                    0.00    132     209.19       0.00           0          0

H) User-Defined Clearcut, Unbunched
YarderCapacity, ft3           84
TurnVol, ft3                  84
Logs                        1.13
TurnTime, min               0.00
Vol/PMH, ft3           #DIV/0!
$/PMH                        276
Yarding $/CCF          #DIV/0!
Change/Shift $/CCF          0.00
$/CCF                  #DIV/0!
Relevance                   0.00 #DIV/0!     #DIV/0!        0.00          0         0
Preset
CarriageHt, ft
Openings

TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance

J) (Huyler, N. and C. LeDoux. 19
YarderCapacity, ft3
TurnVol, ft3
TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance

LeDoux, C. 1985. Stump-to-Mill T
K) Appalachian Thinner-LeDoux

$/PMH
Yarding $/CCF

$/CCF
Relevance

L) Bitterroot Yarder-LeDoux 1985

$/PMH
Yarding $/CCF

$/CCF
Relevance

M) Clearwater Yarder-LeDoux 19

$/PMH
Yarding $/CCF

$/CCF
Relevance

N) Ecologger-LeDoux 1985 (see

$/PMH
Yarding $/CCF
$/CCF
Relevance

O) Skylok 78-LeDoux 1985 (see

$/PMH
Yarding $/CCF

$/CCF
Relevance

P) User-Defined Partial Cut, Unb
YarderCapacity, ft3
TurnVol, ft3
Logs
TurnTime, min
Vol/PMH, ft3
$/PMH
Yarding $/CCF
Change/Shift $/CCF
$/CCF
Relevance
Cable Yarding, Partial Cut, Unbunched (CYPCU)
                       Beginning data row:         8
                         Ending data row:      300
  Weighted-Average Yarding Cost, $/CCF:    #DIV/0!
    (weighted by Vol/PMH and Relevance)
                                                              Weighting Weighting
System & Variables      Values     Vol/PMH    $/CCF Relevance Product    Divisor
A) Clearwater Shotgun Live Skyline (Johnson & Lee, 1988)
YarderCapacity, ft3           84
TurnVol, ft3                  84
Logs                        1.13
TurnEndArea, ft2            5.23
DeckHeight, ft                  5
TurnTime, min              45.75
Vol/PMH, ft3                 110
$/PMH                        276
Yarding $/CCF             251.03
Change/Shift $/CCF          0.17
$/CCF                     251.19
Relevance                   0.00        110     251.19   0.00         0          0

B) Madill 071 Live Skyline w/Danebo MSP (Kellogg-Olsen-Hargrave, 1986)
YarderCapacity, ft3             84
TurnVol, ft3                    84
Logs                          1.13
TurnTime, min                29.56
Vol/PMH, ft3                   170
$/PMH                          276
Yarding $/CCF               162.21
Change/Shift $/CCF            0.25
$/CCF                       162.45
Relevance                     1.00     170     162.45       0.00         0      0

C) Skagit GT3 Running Skyline, Shelterwood (Gardner, 1980)
YarderCapacity, ft3           84
TurnVol, ft3                  84
Logs                        1.13
TurnTime, min           820.30
Vol/PMH, ft3                   6
$/PMH                        276
Yarding $/CCF          4500.84
Change/Shift $/CCF          0.17
$/CCF                  4501.01
Relevance                   0.00         6 4501.01           0.00        0      0

D) Skagit GT3 Running Skyline, Group Selection (Gardner, 1980)
YarderCapacity, ft3           84
TurnVol, ft3                  84
Logs                        1.13
TurnTime, min             11.66
Vol/PMH, ft3                 431
$/PMH                        276
Yarding $/CCF             63.99
Change/Shift $/CCF          0.17
$/CCF                     64.16
            Relevance                     0.00        431       64.16        0.00           0          0

            E) LinkBelt 78 Shotgun Live Skyline, Group Selection (Gardner, 1980)
            YarderCapacity, ft3            84
            TurnVol, ft3                   84
            Logs                         1.13
            TurnTime, min          133021.68
            Vol/PMH, ft3                    0
            $/PMH                         276
            Yarding $/CCF          729864.25
            Change/Shift $/CCF           0.25
            $/CCF                  729864.49
            Relevance                    0.00          0 729864.49         0.00             0          0

           F) Madill 044 w/Bowman Mark Vd (Boswell, B. 2001. Partial cutting with a cable yarding system in coastal British Columbia. FER
           YarderCapacity, ft3             84
           TurnVol, ft3                    84
           TurnTime, min               38.69
           Vol/PMH, ft3                   130
           $/PMH                          276
           Yarding $/CCF              212.27
           Change/Shift $/CCF            0.25
           $/CCF                      212.52
           Relevance                     0.00       130     212.52        0.00             0           0
cond growth forests: summary of harvesting system performance. FERIC Technical Report TR-120)
           G) Skylead C40 w/Mini-Maki II (Pavel, M. 1999. Analysis of a skyline partial cutting operation in the interior cedar-hemlock bioge
           YarderCapacity, ft3             84
           TurnVol, ft3                    84
           TurnTime, min              17.944
           Vol/PMH, ft3                   280
           $/PMH                          276
           Yarding $/CCF               98.46
           Change/Shift $/CCF            0.25
           $/CCF                       98.70
           Relevance                     0.00       280      98.70        0.00             0           0

            H) Koller K501 w/Koller SKA 2.5 manual slackpulling carriage (Yachats site: Kellogg, L., G. Milota and M. Miller. 1996. A compa
            YarderCapacity, ft3            84
            TurnVol, ft3                   84
            Logs                         1.13
            Preset                          1
            Damage                          0
            Span                            0
            TurnTime, min              21.65
            Vol/PMH, ft3                  232
            $/PMH                         276
            Yarding $/CCF             118.80
            Change/Shift $/CCF           0.25
            $/CCF                     119.04
            Relevance                    0.00       232      119.04        0.00          0            0

            I) Koller K501 w/Eaglet mechanical slackpulling carriage (Kellogg, L., Miller, M. and E. Olsen. 1999. Skyline thinning production
            YarderCapacity, ft3           84
            TurnVol, ft3                  84
            Logs                        1.13
Tops                         0
FiberPieces                  0
Preset                       1
CarriageHt, ft              40
Openings                     0
LightThinBetweenOpenings     0
TurnTime, min            32.47
Vol/PMH, ft3               155
$/PMH                      276
Yarding $/CCF           178.15
Change/Shift $/CCF        0.25
$/CCF                   178.40
Relevance                 0.00           155     178.40        0.00           0          0

J) (Huyler, N. and C. LeDoux. 1997. Cycle-time equation for the Koller K300 cable yarder operating on steep slopes in the North
YarderCapacity, ft3            84
TurnVol, ft3                   84
TurnTime, min               48.37
Vol/PMH, ft3                  104
$/PMH                         276
Yarding $/CCF             265.42
Change/Shift $/CCF           0.25
$/CCF                     265.67
Relevance                    0.00        104     265.67         0.00          0           0

LeDoux, C. 1985. Stump-to-Mill Timber Production Cost Equations for Cable Logging in Eastern Hardwoods. RP-NE-566.
K) Appalachian Thinner-LeDoux 1985 (see columns AI-AO for regression equation)
Vol/PMH, ft3 (regression) 15.61
$/PMH                        276
Yarding $/CCF            1765.28
Corridor Change $/CCF       0.25
$/CCF                    1765.52
Relevance                   0.00         16 1765.52          0.00          0           0

L) Bitterroot Yarder-LeDoux 1985 (see columns AI-AO for regression equation)
Vol/PMH, ft3 (regression)    7.99
$/PMH                         276
Yarding $/CCF             3450.95
Corridor Change $/CCF        0.25
$/CCF                     3451.20
Relevance                    0.00          8 3451.20          0.00          0            0

M) Clearwater Yarder-LeDoux 1985 (see columns AI-AO for regression equation)
Vol/PMH, ft3 (regression) 134.35
$/PMH                        276
Yarding $/CCF             205.12
Corridor Change $/CCF       0.17
$/CCF                     205.28
Relevance                   0.00      134    205.28        0.00           0              0

N) Ecologger-LeDoux 1985 (see columns AI-AO for regression equation)
Vol/PMH, ft3 (regression) 27.61
$/PMH                        276
Yarding $/CCF             997.93
Corridor Change $/CCF       0.17
$/CCF                    998.09
Relevance                  0.00          28    998.09       0.00       0   0

O) Skylok 78-LeDoux 1985 (see columns AI-AO for regression equation)
Vol/PMH, ft3 (regression) 140.40
$/PMH                        276
Yarding $/CCF             196.28
Corridor Change $/CCF       0.17
$/CCF                     196.44
Relevance                   0.00      140     196.44        0.00       0   0

P) User-Defined Partial Cut, Unbunched
YarderCapacity, ft3             84
TurnVol, ft3                    84
Logs                          1.13
TurnTime, min                 0.00
Vol/PMH, ft3             #DIV/0!
$/PMH                          276
Yarding $/CCF            #DIV/0!
Change/Shift $/CCF            0.00
$/CCF                    #DIV/0!
Relevance                     0.00 #DIV/0!    #DIV/0!       0.00       0   0
Cable Yarding, Bunched CTL Logs (CYCTL)
                      Beginning data row:            8
                        Ending data row:           300
  Weighted-Average Yarding Cost, $/CCF:           0.00
    (weighted by Vol/PMH and Relevance)
                                                                  Weighting Weighting
System & Variables       Values   Vol/PMH     $/CCF      Relevance Product   Divisor
General Inputs for CTL bunching
CTLBunchArea, ft2       5026.548
YarderCTLLogVol, ft3          0.0
BunchLimitedTurnVol, ft3      0.0

A) Diamond D210 Standing Skyline w/Eaglet Motorized Carriage (Doyal, 1997)
YarderCapacity, ft3   #DIV/0!
TurnVol, ft3              0.00 Was: =MIN(AA14,MAX(AA$11,TreeVolST))
Logs                  #DIV/0!
Chokers                       5 Was 3
Hotset                        0
Chokersetters                 4
TurnTime, min           538.85
Vol/PMH, ft3                  0
$/PMH                      276
Yarding $/CCF         #DIV/0!
Change/Shift $/CCF        0.25
$/CCF                 #DIV/0!
Relevance                 1.00           0 #DIV/0!          1.00           0        0

B) User-Defined CTL Bunched
YarderCapacity, ft3         84
TurnVol, ft3                  0
Logs                  #DIV/0!
TurnTime, min             0.00
Vol/PMH, ft3          #DIV/0!
$/PMH                      276
Yarding $/CCF         #DIV/0!
Change/Shift $/CCF        0.00
$/CCF                 #DIV/0!
Relevance                 0.00    #DIV/0!    #DIV/0!          0.00        0         0
rding system in coastal British Columbia. FERIC Advantage 2(44))




 operation in the interior cedar-hemlock biogeoclimatic zone. FERIC Technical Report TR-125)




gg, L., G. Milota and M. Miller. 1996. A comparison of skyline harvesting costs for alternative commercial thinning prescriptions. J. For. Engr.




d E. Olsen. 1999. Skyline thinning production and costs: experience from the Willamette Young Stand Project. OSU For. Res. Lab. Research
yarder operating on steep slopes in the Northeast. USDA FS Research Paper NE-705)




ing in Eastern Hardwoods. RP-NE-566.
escriptions. J. For. Engr. 7(3):7-23)




For. Res. Lab. Research Contribution 21)
Appalachian Thinner          Dykstra, 21 Feb 2008           Divide $/ft3 into $/PMH for ft/PMH
Dep. Var.   Est.Param        Indep. Vars.      Units        Orig. $/PMH Limitations
  $/ft3 =       -0.089289             --                        44.09       Dbh range:
               81.991053     1/(Vol/ac)        1/(ft3/ac)
                 0.000269    AYD               ft
             -496.820821     1/((Vol/ac)(Dbh)) 1/((ft3/ac)(in))
                 1.535553    1/Dbh             1/in


Bitterroot Yarder            Dykstra, 21 Feb 2008           Divide $/ft3 into $/PMH for ft/PMH
Dep. Var.     Est.Param      Indep. Vars.      Units        Orig. $/PMH Limitations
    $/ft3 =       0.161995           --                         23.61        Dbh range:
                  0.000783   DBH^2             in^2                         Max AYD:
                  0.000172   AYD               ft



Clearwater Yarder            Dykstra, 21 Feb 2008           Divide $/ft3 into $/PMH for ft/PMH
Dep. Var.   Est.Param        Indep. Vars.      Units        Orig. $/PMH Limitations
    $/ft3         0.12577             --                        70.45       Dbh range:
                 -0.00328    DBH               in
                0.000048     AYD               ft
               623.08404     1/((Vol/ac)(Dbh)) 1/((ft3/ac)(in))

Ecologger                    Dykstra, 21 Feb 2008           Divide $/ft3 into $/PMH for ft/PMH
Dep. Var.   Est.Param        Indep. Vars.      Units        Orig. $/PMH Limitations
  $/ft3 =       0.707187              --                        55.77       Dbh range:
               -0.050285     DBH               in
                0.001089     DBH^2             in^2
               33.101018     1/(Vol/ac)        1/(ft3/ac)
                0.000168 AYD                  ft
               -2.095831 1/Dbh                1/in

Skylok 78                  Dykstra, 21 Feb 2008           Divide $/ft3 into $/PMH for ft/PMH
Dep. Var.   Est.Param      Indep. Vars.      Units        Orig. $/PMH Limitations
    $/ft3       0.090775            --                        121.65      Dbh range:
                0.000071   AYD               ft
             739.473795    1/((Vol/ac)(Dbh)) 1/((ft3/ac)(in))
                0.594844   1/DBH             1/in
$/PMH for ft/PMH

          7-24 in




$/PMH for ft/PMH

          5-9 in
          500 ft




$/PMH for ft/PMH

          7-16 in




$/PMH for ft/PMH

          7-24 in
$/PMH for ft/PMH

          7-24 in
General Inputs                           Dykstra: Notes on modifications for FRCS-South
Slope, %                            3    and FRCS-North, 24 Feb 2008
YardDist, ft                   10560     1. Skidding systems added for use in the South and
Removals, trees/ac               8.62    North and not in FRCS-West are in blue.
TreeVol, ft3                  266.22     2. Skidding systems from FRCS-West that are
WoodDensity, lb/ft3         103.4838     considered irrelevant have been removed by setting
LogLength, ft                      32    their relevance values to 0 in the
PartialCut                          1    RelevanceWeightInputs worksheet.
                                         3. This worksheet has been completely revised to
Calculated Intermediates                 make it easier to update yarding systems,
                         0.998857
CSlopeSkidForwLoadSize (Mellgren 90)     production rates, and costs.
LogsPerTree              3.601032
LogVol, ft3              73.92968
MachineSize                     0.9
BFperCF                           5
ButtDiam, in                 38.35

Skidding Calculated Values
TurnVol, ft3              152.5403
LogsPerTurnS              2.063316
TreesPerTurnS                  0.57
AvgSkdHourlyCost, $/PMH      163.47
SmallSkdHCost, $/PMH         116.01
BigSkdHCost, $/PMH           169.49


General Inputs for Choker Skidding, Unbunched
MaxLogs                             10
ChokerLogs                         2.1
ChokerTurnVol, ft3              152.5



General Inputs for Grapple Skidding, Unbunched
IntMoveDistS, ft                  17.0



General Inputs for Bunched Skidding
BunchSize, trees/bunch            2.0
Relevance
This system has been disab

K) Forest Ant (LeDoux and
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

L) Samé Minitaurus (LeDou
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
This system has been disab


M) John Deere 640D cable
1 if group = 0.5 ac
1 if group = 1.0 ac
1 if group = 1.5 ac
1 if logs are bunched
Winch cycles/turn
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
N) Timberjack 460 choker s
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance


O) Cable skidders
Skidder horsepower
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance




User-Defined Skidding Unb
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Choker and Grapple Skidding, Unbunched (SCGU)
                     Beginning data row:       8
                       Ending data row:      300
 Weighted-Average Skidding Cost, $/CCF:    75.45
   (weighted by Vol/PMH and Relevance)
                                                                 Weighting Weighting
System & Variables    Values    Vol/PMH       $/CCF     Relevance Product   Divisor
A) CC Chokers (Johnson & Lee, 1988)
WinchDist. ft               25
TurnTime, min            28.31
Vol/PMH, ft3               323
$/PMH                      163
$/CCF                    50.56
Relevance                 0.31       323        50.56        0.00         0         0

B) CC Chokers (Gibson & Egging, 1973)
TurnTime, min            92.24
Vol/PMH, ft3                99
$/PMH                      163
$/CCF                   164.75
Relevance                 1.00          99     164.75        0.00         0         0

C) CC Chokers (Schillings, 1969)
TurnTime, min             303.86
Vol/PMH, ft3                   30
$/PMH                         163
$/CCF                     542.73
Relevance                    0.52        30   542.73       0.00           0         0
This system has been disabled in RelevanceWeightInputs because of odd results.

D) CC Chokers (Gardner, 1979)
TurnTime, min            173.12
Vol/PMH, ft3                 53
$/PMH                       163
$/CCF                    309.21
Relevance                  1.00         53     309.21        0.00         0         0

E) Cat 518 or Cat D4H, Chokers (Andersson, B. and G. Young 1998. Harvesting coastal second growth forests: summary of h
TurnTime, min            63.328
Vol/PMH, ft3                145
$/PMH                       169
$/CCF                    117.28
Relevance                  0.00        145     117.28      0.00         0           0

F) Cat 518 Grapple (Johnson, 1988)
TurnTime, min            114.71
Vol/PMH, ft3                  80
$/PMH                        169
$/CCF                    212.44
Relevance                   0.00        80     212.44        0.00         0         0

G) JD 648 Grapple (Gebhardt, 1977)
GroundRating                 1.1
TypeOfCut                    1.5
TurnTime, min            36.01
Vol/PMH, ft3                 254
$/PMH                        163
$/CCF                      64.31
Relevance                   1.00        254       64.31       1.00 16347.07 254.1741

LeDoux and Huyler. 1992. Cycle-time equations for five small tractors operating in low-volume small-diameter hardwood stands
H) Pasquali 933 Skidder
TurnTime, min            129.61
Vol/PMH, ft3                 71
$/PMH                       116
$/CCF                    164.29
Relevance                  0.00         71      164.29          0.00          0            0

I) Massey-Ferguson (LeDoux and Huyler, 1992)
TurnTime, min           167.51
Vol/PMH, ft3                 55
$/PMH                       116
$/CCF                   212.33
Relevance                  0.00         55      212.33        0.00          0          0

J) Holder A60F (LeDoux and Huyler, 1992)
TurnTime, min              70.10
Vol/PMH, ft3                 131
$/PMH                        116
$/CCF                      88.86
Relevance                   0.00        131    88.86       0.00           0            0
This system has been disabled in RelevanceWeightInputs because of odd results.

K) Forest Ant (LeDoux and Huyler, 1992)
TurnTime, min            242.60
Vol/PMH, ft3                 38
$/PMH                       116
$/CCF                    307.51
Relevance                  0.00         38      307.51        0.00          0          0

L) Samé Minitaurus (LeDoux and Huyler, 1992)
TurnTime, min            130.79
Vol/PMH, ft3                  70
$/PMH                        116
$/CCF                    165.78
Relevance                   0.00         70   165.78       0.00           0            0
This system has been disabled in RelevanceWeightInputs because of odd results.

LeDoux et al. 1993. Production rates and costs of group-selection harvests with ground-based logging system. In GTR-NC-161,
M) John Deere 640D cable skidder (group selection)
1 if group = 0.5 ac              0
1 if group = 1.0 ac              1
1 if group = 1.5 ac              0
1 if logs are bunched            0
Winch cycles/turn              1.3
TurnTime, min               74.52
Vol/PMH, ft3                  123
$/PMH                         116
$/CCF                       94.45
Relevance                    0.00        123       94.45        0.00           0         0
Wang et al. 2004. Productivity and cost of manual felling and cable skidding in central Appalachian hardwood forests. For. Prod
N) Timberjack 460 choker skidder
TurnTime, min                -0.09
Vol/PMH, ft3            -101357
$/PMH                          116
$/CCF                        -0.11
Relevance                     0.00 -101357          -0.11       0.00            0          0

Kluender et al. 1997. Productivity of rubber-tired skidders in southern pine forests. For. Prod. J. 47(11/12):53-58.
O) Cable skidders
Skidder horsepower             120
TurnTime, min            182.7421
Vol/PMH, ft3                    50
$/PMH                          163
$/CCF                      326.39
Relevance                     0.23          50      326.39         0.23 3681.018 11.27782




User-Defined Skidding Unbunched
Vol/PMH, ft3                   0
$/PMH                       163
$/CCF                  #DIV/0!
Relevance                  0.00              0   #DIV/0!          0.00           0           0
Choker and Grapple Skidding, Bunched (SCGB)
                     Beginning data row:       8
                       Ending data row:      300
 Weighted-Average Skidding Cost, $/CCF:    45.56
   (weighted by Vol/PMH and Relevance)
                                                                    Weighting Weighting
System & Variables      Values   Vol/PMH        $/CCF      Relevance Product   Divisor
A) Grapple Skidders (Johnson, 1988)
DeckHeight, ft                 3
TravEmpty, min              4.52
Load, min                   0.92
TravLoaded, min           10.91
Deck, min                   0.68
TurnTime, min             17.02
Vol/PMH, ft3                 538
$/PMH                        163
$/CCF                     30.41
Relevance                   0.00      538          30.41        0.00           0          0

B) Grapple Skidders (Tufts et al, 1988)
EastsideAdjustment              1.0 Was 1.2 for Interior West
Trees/bunch                   0.57
BunchVol, ft3                  153
TurnWt, lb                 15785
Bunches/grapple load          1.00
Skidder Hp                     120
TravEmpty, min              16.32
Grapple, min                  0.57
TravLoaded, min             16.92
Ungrapple, min                0.44
Cycletime, min              34.25
Vol/PMH, ft3                   267
$/PMH                          169
$/CCF                       63.42
Relevance                     0.00      267        63.42       0.00            0          0

C) John Deere 748E (Kosicki, K. 2000. Productivities and costs of two harvesting trials in a western Alberta riparian zone. FERI
LoadingStops                  2.1
TurnTime, min             58.19
Vol/PMH, ft3                 157
$/PMH                        169
$/CCF                    107.75
Relevance                   0.00        157      107.75        0.00           0             0

D) Cat D5H TSK Custom Track (Henderson, B. 2001. Roadside harvesting with low ground-presssure skidders in northwestern
TurnTime, min          117.92
Vol/PMH, ft3               78
$/PMH                     169
$/CCF                  218.38
Relevance                0.00        78      218.38      0.00           0          0

E) JD 748_G-II & TJ 560 (Kosicki, K. 2002. Productivity and cost of summer harvesting in a central Alberta mixedwood stand. F
Bunches/turn                1.00
TurnTime, min              62.48
Vol/PMH, ft3                 146
$/PMH                         116
$/CCF                       79.19
Relevance                    0.00        146       79.19        0.00          0           0

F) Tigercat 635 (Boswell, B. 1998. Vancouver Island mechanized thinning trials. FERIC Technical Note TN-271)
TurnTime, min                79.69
Vol/PMH, ft3                   115
$/PMH                          116
$/CCF                      101.01
Relevance                     0.00       115     101.01      0.00             0         0

G) Tigercat 635 (Kosicki, K. 2002. Evaluation of Trans-Gesco TG88C and Tigercat 635 grapple skidders working in central Albe
Trees/Turn                    0.57
TurnTime, min                66.49
Vol/PMH, ft3                   138
$/PMH                          116
$/CCF                        84.28
Relevance                     0.00        138       84.28     0.00         0          0

H) John Deere 640D cable skidder (group selection, bunched) (LeDoux et al. 1993)
1 if group = 0.5 ac            0
1 if group = 1.0 ac            1
1 if group = 1.5 ac            0
1 if logs are bunched          1
Winch cycles/turn            1.3
TurnTime, min             61.03
Vol/PMH, ft3                150
$/PMH                       116
$/CCF                     77.36
Relevance                  0.00        150       77.36        0.00          0             0

I) Timberjack 460 grapple skidder (Wang et al. 2004. Production and cost analysis of a feller-buncher and grapple skidder in cen
TurnTime, min            7838.88
Vol/PMH, ft3                    1
$/PMH                         116
$/CCF                    9936.09
Relevance                    0.00          1 9936.09           0.00          0             0

Cubbage et al. 1989. Tree size and species, stand volume, and tract size: effects on southern harvesting costs. SJAF 13(3):145
Note: This study does not include any effect of skidding distance on production rate.
J) Small choker skidder (Cubbage et al., 1989)
ft3/cord                        80
Tract size, cords              250
Vol/PMH, ft3                 1359
$/PMH                          116
$/CCF                         8.54
Relevance                     0.00       1359         8.54       0.00          0          0

K) Large choker skidder (Cubbage et al., 1989)
ft3/cord                      80
Tract size, cords            250
Vol/PMH, ft3                 597
$/PMH                        169
$/CCF                      28.39
Relevance                   0.23         597       28.39        0.23 3816.609      134.448
L) Small grapple skidder (Cubbage et al., 1989)
ft3/cord                       80
Tract size, cords             250
Vol/PMH, ft3                  101
$/PMH                         116
$/CCF                      114.73
Relevance                    0.00         101      114.73         0.00           0           0

M) Large grapple skidder (Cubbage et al., 1989)
ft3/cord                      80
Tract size, cords            250
Vol/PMH, ft3                 138
$/PMH                        169
$/CCF                     122.55
Relevance                   0.23         138    122.55            0.23 3816.609 31.14223

Kluender et al. 1997. Productivity of rubber-tired skidders in southern pine forests. For. Prod. J. 47(11/12):53-58.
N) Grapple skidders (Kluender et al., 1997)
BA fraction removed           0.35
TurnTime, min            24.90211
Vol/PMH, ft3                   368
$/PMH                          163
$/CCF                        44.48
Relevance                     0.23         368        44.48        0.23 3681.018 82.76135




User-Defined Skidding Bunched
Vol/PMH, ft3                   0
$/PMH                       163
$/CCF                  #DIV/0!
Relevance                  0.00              0    #DIV/0!         0.00           0           0
erta riparian zone. FERIC Advantage 1(19))




skidders in northwestern British Columbia. FERIC Advantage 2(54))




erta mixedwood stand. FERIC Advantage 3(6))
s working in central Alberta. FERIC Advantage 3(37))




nd grapple skidder in central Appalachian hardwood forests. For. Prod. J. 54(12):159-167.




g costs. SJAF 13(3):145-152.
General Inputs                         Dykstra: Notes on modifications for FRCS-South
RemovalsST, trees/ac              0    and FRCS-North, 24 Feb 2008
TreeVolST, ft3                    0    1. Harvesters not in FRCS-West but added for use
CTLTrailSpacing, ft           50.00    in the South and North are in blue.
PartialCut                     1.00    2. Harvesters from FRCS-West that are considered
                                       irrelevant have been removed by setting their
Calculated Intermediates               relevance values to 0 in the RelevanceWeightInputs
DBHST, in                          0   worksheet.
ButtDiamST, in                     3
TreeHeightST, ft                 0.0   3. This worksheet has been completely revised to
VolPerAcreST, ft3                  0   make it easier to update production rates and costs.
CTLLogsPerTree                     1
CTLLogVol, ft3                     0
CTLMachineSize                     0
NonSelfLevelCabDummy               1
CSlopeFB&Harv (Mellgren 90) 0.01212
CRemovalsFB&Harv (Mellgren 90)0.66

Harvester Calculated Values
HarvesterHourlyCost, $/PMH 260.165
MerchTreeHeight, ft         61.3457




                                                                                              Logs/Cycle
                                                                                              Vol/Cycle, ft3
                                                                                              Time/Cycle, min
                                                                                              Time/Tree, min
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance

                                                                                              D) Timberjack 2518 (Kellog
                                                                                              Vol/PMH, ft3
                                                                                              $/PMH
                                                                                              $/CCF
                                                                                              Relevance

                                                                                              E) Rottne (McNeel & Ruther
Stand1Vol/PMH, ft3
Stand2Vol/PMH, ft3
AvgVol/PMH, ft3
$/PMH
$/CCF
Relevance

G) Hitachi 200LC/Keto 500
DownDummy
DeadDummy
YarderDummy
ProdDelayFraction
BoomReach, ft
DistPerMove, ft
TreesInReach
Trees/Move
Brush, min
Move, min/tree
Swing, min
Fell, min
Process, min
Time/Tree, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

H) Rottne SMV EGS w/600
Machine
Experience
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

I) Enviro w/ Pan 828 (Meek,
Machine
Experience
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

J) FERIC Generic (Gingras,
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

K) (MacDonald, C. 1988. Ev
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

L) Rottne SMV Rapid EGS w
StandingDeadDummy
DownTreeDummy
DougFirDummy
DistPerMove, ft
Time/Tree, min
Vol/PMH, ft3
$/PMH
$/CCF
Harvesters
                                   Beginning data row:          10
                                     Ending data row:          300
             Weighted-Average Harvester Cost, $/CCF:          0.00
                 (weighted by Vol/PMH and Relevance)
             Weighted-Average Harvester Cost, $/PMH:          0.00

                                                                                 Weighting   Weighting
System & Variables      Values    Vol/PMH    $/PMH        $/CCF      Relevance    $/PMH       $/CCF
A) Hitachi EX150/Keto 500 (Schroder & Johnson, 1997)
Time/Tree, min           0.61742
Vol/PMH, ft3                    0
$/PMH                    260.165
$/CCF                   #DIV/0!
Relevance                    1.00        0        260     #DIV/0!         1.00 260.165042            0

B) Komatsu PC95/Hahn HSG140 (Schroder & Johnson, 1997)
BoomReach, ft              24
TreesInReach                0
Trees/Cycle                 1
Vol/Cycle, ft3              0
Time/Cycle, min      #NUM!
Time/Tree, min       #NUM!
Vol/PMH, ft3         #NUM!
$/PMH                 260.165
$/CCF                #NUM!
Relevance                1.00 #NUM!          260 #NUM!                    1.00 260.165042            0

C) Timbco T425/Pika 600 (Schroder & Johnson, 1997)
BoomReach, ft                24
TreesInReach                  0
Trees/Cycle                   1
Logs/Cycle                    1
Vol/Cycle, ft3                0
Time/Cycle, min       0.284508
Time/Tree, min        0.284508
Vol/PMH, ft3                  0
$/PMH                  260.165
$/CCF                 #DIV/0!
Relevance                  1.00         0        260      #DIV/0!         1.00 260.165042            0

D) Timberjack 2518 (Kellogg & Bettinger, 1994)
Vol/PMH, ft3            -368.993
$/PMH                    260.165
$/CCF                   -70.5068
Relevance                    1.00       -369        260     -70.51        0.00           0           0

E) Rottne (McNeel & Rutherford, 1994)
BoomReach, ft                 24
DistPerMove, ft        #DIV/0!
TreesInReach                   0
Trees/Move                     1
Cut, min                 0.0283
Process, min            0.02388
PositionHead, min          0.189
SlashDisposal, min        0.1091
Move, min/tree          #DIV/0!
Time/Tree, min          #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                    260.165
$/CCF                   #DIV/0!
Relevance                    1.00   #DIV/0!         260    #DIV/0!         1.00 260.165042               0

F) Norcar 600H (Brinker & Tufts, 1990)
Stand1Vol/PMH, ft3           100
Stand2Vol/PMH, ft3           100
AvgVol/PMH, ft3              100
$/PMH                    260.165
$/CCF                    260.165
Relevance                   1.00         100        260      260.17        1.00 260.165042 26016.5042

G) Hitachi 200LC/Keto 500 (Drews et al, 2000)
DownDummy                     0.2
DeadDummy                     0.2
YarderDummy                     0
ProdDelayFraction          0.126
BoomReach, ft                  24
DistPerMove, ft        #DIV/0!
TreesInReach                    0
Trees/Move                      1
Brush, min                0.0089
Move, min/tree         #DIV/0!
Swing, min             0.237288
Fell, min               0.02136
Process, min            0.02388
Time/Tree, min         #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                   260.165
$/CCF                  #DIV/0!
Relevance                    1.00 #DIV/0!           260    #DIV/0!         0.00            0             0

H) Rottne SMV EGS w/600 (Meek, P. 2000. Productivity and costs of single-grip harvesters in commercial thinning: summary re
Machine                      1
Experience                   2
Vol/PMH, ft3                 0
$/PMH                 260.165
$/CCF                #DIV/0!
Relevance                 1.00          0        260 #DIV/0!            0.00              0           0

I) Enviro w/ Pan 828 (Meek, P. 2000. Productivity and costs of single-grip harvesters in commercial thinning: summary report. F
Machine                         2
Experience                      2
Vol/PMH, ft3                    0
$/PMH                    260.165
$/CCF                   #DIV/0!
Relevance                    1.00          0         260 #DIV/0!             0.00           0              0

J) FERIC Generic (Gingras, J.F. 1996. The cost of product sorting during harvesting. FERIC Technical Note TN-245)
Vol/PMH, ft3                    0
$/PMH                   260.165
$/CCF                   #DIV/0!
Relevance                   1.00           0        260   #DIV/0!         0.00             0            0

K) (MacDonald, C. 1988. Evaluation of the Bruun T 610-H-A single grip harvester. B.S. Thesis, University of New Brunswick)
Vol/PMH, ft3           96.93888
$/PMH                   260.165
$/CCF                  268.3805
Relevance                   1.00          97       260     268.38         0.00            0              0

L) Rottne SMV Rapid EGS w/600 (Matzka, P. 2003. Thinning with prescribed fire and timber harvesting mechanization for fuels
StandingDeadDummy             0
DownTreeDummy                 0
DougFirDummy                0.1
DistPerMove, ft       #DIV/0!
Time/Tree, min        #DIV/0!
Vol/PMH, ft3          #DIV/0!
$/PMH                  260.165
$/CCF                 #DIV/0!
Relevance                 1.00 #DIV/0!           260 #DIV/0!           0.00              0           0

M) JD 653C w/Waratah HTH Warrior (Matzka, P. 2003. Thinning with prescribed fire and timber harvesting mechanization for fu
StandingDeadDummy             0
DownTreeDummy                 0
DougFirDummy                  0
DistPerMove, ft       #DIV/0!
Time/Tree, min        #DIV/0!
Vol/PMH, ft3          #DIV/0!
$/PMH                  260.165
$/CCF                 #DIV/0!
Relevance                 1.00 #DIV/0!          260 #DIV/0!           0.00              0            0

N) Cat 320L w/Keto 500 (Matzka, P. 2003. Thinning with prescribed fire and timber harvesting mechanization for fuels reduction
StandingDeadDummy               0
DownTreeDummy                   0
DougFirDummy                  0.1
DistPerMove, ft         #DIV/0!
Time/Tree, min          #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                    260.165
$/CCF                   #DIV/0!
Relevance                   1.00 #DIV/0!           260 #DIV/0!            0.00             0           0

O) FMG 1870 w/TJ 762B (Eliasson, L., J. Bengtsson, J. Cedergren and H. Lageson. 1999. Comparison of single grip harvester
Time/Tree, min       0.394727
Vol/PMH, ft3                  0
$/PMH                 260.165
$/CCF                #DIV/0!
Relevance                  1.00           0       260 #DIV/0!           1.00 260.165042            0

P) Osa 260/752 & Valmet 862/942 (Lageson, H. 1997. Effects of thinning type on the harvester productivity and on the residua
Time/Tree, min       0.387932
Vol/PMH, ft3                 0
$/PMH                 260.165
$/CCF                #DIV/0!
Relevance                 1.00         0        260 #DIV/0!             1.00 260.165042               0
Q) Ponsse Ergo (Bolding, M.C. and B. Lanford. 2002. Productivity of a Ponsse Ergo harvester working on steep terrain. In: Coun
Time/Tree, min         #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                    260.165
$/CCF                  #DIV/0!
Relevance                   1.00 #DIV/0!           260 #DIV/0!            1.00 260.165042              0




R) User-Defined Harvester
Vol/PMH, ft3                   0
$/PMH                       260
$/CCF                  #DIV/0!
Relevance                  0.00            0        260   #DIV/0!         0.00            0            0
Weighting
 Divisor




        0




        0




        0




        0
                       0




                    100




                       0

ommercial thinning: summary report. FERIC Advantage 1(41))




                       0

cial thinning: summary report. FERIC Advantage 1(41))




                       0

chnical Note TN-245)
                         0

University of New Brunswick)



                         0

 vesting mechanization for fuels reduction and forest restoration. PhD thesis. Oregon State University)




                         0

  harvesting mechanization for fuels reduction and forest restoration. PhD thesis. Oregon State University)




                         0

mechanization for fuels reduction and forest restoration. PhD thesis. Oregon State University)




                         0

 parison of single grip harvester productivity in clear and shelterwood cutting. J. For. Engr. 10(1):43-48)




                         0

r productivity and on the residual stand. J. For. Engr. 8(2):7-14)




                         0
working on steep terrain. In: Council on Forest Engineering Proceedings, Auburn, Alabama)




                        0




                        0
General Inputs                         Dykstra: Notes on modifications for FRCS-South
Slope, %                         3     and FRCS-North, 24 Feb 2008
YardDist, ft                 10560     1. Forwarders not in FRCS-West but added for use
RemovalsST, trees/ac             0     in the South and North are in blue.
TreeVolST, ft3                   0     2. Forwarders from FRCS-West that are considered
DBHST, in                        0     irrelevant have been removed by setting their
WoodDensityST, lb/ft3            0     relevance values to 0 in the RelevanceWeightInputs
LogLength, ft                   32     worksheet.
CTLTrailSpacing, ft             50
                                       3. This worksheet has been completely revised to
                                       make it easier to update production rates and costs.

Calculated Intermediates
CTLLogVol, ft3                    0
VolPerAcreST, ft3                 0
CTLMachineSize                  0.0
                         0.998857
CSlopeSkidForwLoadSize (Mellgren 90)

Forwarding Calculated Values
DistPerMoveF, ft                30
ForwarderHourlyCost, $/PMH180.6892

Forwarding Input Values
BoomReachF, ft                   20
LoadFraction                   0.95




                                                                                              DistIntermB, ft
                                                                                              DistOutB, ft
                                                                                              DistInB, ft
                                                                                              MovesB
                                                                                              LandingMoves

                                                                                              TravelOut, min
                                                                                              Load, min
                                                                                              SortWoods, min
                                                                                              TravelInterm, min
                                                                                              TravelLoaded, min
                                                                                              Unload, min
                                                                                              SortLanding, min
                                                                                              MoveLanding, min
                                                                                              TurnTime, min
                                                                                              Vol/PMH, ft3
D) Valmet 646 12-ton (Drew
MaxLoadWeight, tons
LoadVolD, ft3
DistIntermD, ft
DistOutD, ft
DistInD, ft
RoadDist, ft

ColdDummy
SawlogFraction


Load, min
TravelInterm, min

Unload, min
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

E) TJ 1010 (Sambo, S. 199
MaxLoadWeight, tons
LoadVol, ft3
Pieces/Load
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance

F) Fabtek 546B (Bolding, M
MaxLoadWeight, tons
LoadVol, ft3
DistInterm, ft
DistOut, ft
DistIn, ft
LoadingStops
TravelEmpty, min

Load, min
TravelLoaded, min
Unload, min
Wait, min
TurnTime, min
Vol/PMH, ft3
$/PMH
$/CCF
Relevance




G) User-Defined Forwarder
Vol/PMH, ft3
$/PMH
$/CCF
Relevance
Forwarding
                                 Beginning data row:            10
                                   Ending data row:            300
          Weighted-Average Processing Cost, $/CCF:            0.00
               (weighted by Vol/PMH and Relevance)
          Weighted-Average Processing Cost, $/PMH:            0.00

                                                                               Weighting Weighting
System & Variables      Values    Vol/PMH     $/PMH      $/CCF Relevance         $/PMH         $/CCF
A) Timberjack 230A 8-ton (Schroder & Johnson, 1997)
MaxLoadWeight, tons            8
LoadVolA, ft3          #DIV/0!
DistIntermA, ft        #DIV/0!
DistOutA, ft           #DIV/0!
DistInA, ft            #DIV/0!
MovesA                 #DIV/0!
Paint                          1
TravelOut, min         #DIV/0!
Load, min              #DIV/0!
TravelInterm, min      #DIV/0!
TravelLoaded, min      #DIV/0!
Unload, min                 6.84
TurnTime, min          #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                        181
$/CCF                  #DIV/0!
Relevance                   1.00 #DIV/0!           181 #DIV/0!          0.00              0             0
Disabled (in RelevanceWeightInputs) by Dykstra on 02 Mar 2008--gives poor results for long forwarding distances.

B) Rottne 10-ton (McNeel & Rutherford, 1994)
MaxLoadWeight, tons            11
LoadVolB, ft3          #DIV/0!
DistIntermB, ft        #DIV/0!
DistOutB, ft           #DIV/0!
DistInB, ft            #DIV/0!
MovesB                 #DIV/0!
LandingMoves                  0.5
LandingMoveDistPerMove, ft 100
TravelOut, min         #DIV/0!
Load, min                   9.25
SortWoods, min              2.05
TravelInterm, min      #DIV/0!
TravelLoaded, min      #DIV/0!
Unload, min                 5.39
SortLanding, min            2.10
MoveLanding, min            0.18
TurnTime, min          #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                        181
$/CCF                  #DIV/0!
Relevance                   1.00 #DIV/0!            181   #DIV/0!         1.00 180.689151              0

C) FMG 910 (Kellogg & Bettinger, 1994)
MaxLoadWeight, tons          9.9
LoadVolC, ft3          #DIV/0!
DistIntermC, ft          #DIV/0!
DistOutC, ft             #DIV/0!
DistInC, ft              #DIV/0!
MixedDummy                     0.8
PulpDummy                      0.1
Vol/PMH, ft3             #DIV/0!
$/PMH                         181
$/CCF                    #DIV/0!
Relevance                    1.00    #DIV/0!         181   #DIV/0!         1.00 180.689151               0

D) Valmet 646 12-ton (Drews et al., 2000)
MaxLoadWeight, tons         13.2
LoadVolD, ft3           #DIV/0!
DistIntermD, ft         #DIV/0!
DistOutD, ft            #DIV/0!
DistInD, ft             #DIV/0!
RoadDist, ft                  50
MultipleCorridorDummy       0.08
ColdDummy                   0.83
SawlogFraction              0.02
TravelEmptyOnRoad, min      0.24
TravelOut+TravelLoaded, min90.42
Load, min                  17.08
TravelInterm, min       #DIV/0!
TravelLoadedOnRoad, min 0.47
Unload, min                 7.32
TurnTime, min           #DIV/0!
Vol/PMH, ft3            #DIV/0!
$/PMH                        181
$/CCF                   #DIV/0!
Relevance                   1.00 #DIV/0!             181   #DIV/0!         1.00 180.689151               0

E) TJ 1010 (Sambo, S. 1999. Reduction of trail density in a partial cut with a cut-to-length system. FERIC Technical Note TN 29
MaxLoadWeight, tons         13.2
LoadVol, ft3           #DIV/0!
Pieces/Load            #DIV/0!
TurnTime, min          #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                        181
$/CCF                  #DIV/0!
Relevance                   1.00 #DIV/0!             181 #DIV/0!              1.00 180.689151              0

F) Fabtek 546B (Bolding, M.C. 2003. Forest fuel reduction and energywood production using a CTL/small chipper harvesting sy
MaxLoadWeight, tons           15
LoadVol, ft3            #DIV/0!
DistInterm, ft          #DIV/0!
DistOut, ft             #DIV/0!
DistIn, ft              #DIV/0!
LoadingStops            #DIV/0!
TravelEmpty, min        #DIV/0!
TravelWhileLoading, min#DIV/0!
Load, min               #DIV/0!
TravelLoaded, min       #DIV/0!
Unload, min             #DIV/0!
Wait, min                   0.00
TurnTime, min          #DIV/0!
Vol/PMH, ft3           #DIV/0!
$/PMH                       181
$/CCF                  #DIV/0!
Relevance                  1.00    #DIV/0!       181   #DIV/0!   1.00 180.689151   0




G) User-Defined Forwarder
Vol/PMH, ft3                   0
$/PMH                       181
$/CCF                  #DIV/0!
Relevance                  0.00              0   181   #DIV/0!   0.00         0    0
            Weighting
             Divisor




                     0
warding distances.




                     0
                      0




                      0

m. FERIC Technical Note TN 293)




                      0

CTL/small chipper harvesting system, M.S. Thesis, Auburn Univ)
0




0
General Inputs                       Dykstra: Notes on modifications for FRCS-South
TreeVolSLT, ft3                 0    and FRCS-North, 24 Feb 2008
                                     1. Processors not in FRCS-West but added for use
Calculated Intermediates             in the South and North are in blue.
DBHSLT, in                       0   2. Processors from FRCS-West that are considered
ButtDiamSLT, in                  3   irrelevant have been removed by setting their
LogsPerTreeSLT                 1.0   relevance values to 0 in the RelevanceWeightInputs
MechMachineSize                  0   worksheet.

Processing Calculated Values         3. This worksheet has been completely revised to
ProcessorHourlyCost, $/PMH192.4424   make it easier to update production rates and costs.




                                                                                            Vol/PMH, ft3
                                                                                            $/PMH
                                                                                            $/CCF
                                                                                            Relevance

                                                                                            E) Hitachi EX150/Keto 500
                                                                                            Time/Tree, min
                                                                                            Vol/PMH, ft3
                                                                                            $/PMH
                                                                                            $/CCF
                                                                                            Relevance

                                                                                            F) FERIC Generic (Gingras
                                                                                            Vol/PMH, ft3
                                                                                            $/PMH
                                                                                            $/CCF
Processing
                                 Beginning data row:            10
                                   Ending data row:            300
          Weighted-Average Processing Cost, $/CCF:            0.00
               (weighted by Vol/PMH and Relevance)
          Weighted-Average Processing Cost, $/PMH:            0.00

                                                                                 Weighting   Weighting
System & Variables     Values    Vol/PMH    $/PMH         $/CCF      Relevance    $/PMH       $/CCF
A) Hahn Stroke Processor (Gonsier & Mandzak, 1987)
Time/Tree, min          0.29232
Vol/PMH, ft3                   0
$/PMH                 192.4424
$/CCF                  #DIV/0!
Relevance                   1.00        0        192      #DIV/0!         1.00 192.442369              0

B) Stroke Processor (MacDonald, 1990)
Time/Tree, min           0.1965
Vol/PMH, ft3                   0
$/PMH                  192.4424
$/CCF                  #DIV/0!
Relevance                   1.00           0       192    #DIV/0!         1.00 192.442369              0

C) Roger Stroke Processor (Johnson, 1988)
Time/Tree, min           0.6344
Vol/PMH, ft3                   0
$/PMH                    192.44
$/CCF                  #DIV/0!
Relevance                   1.00          0        192    #DIV/0!         1.00 192.442369              0

D) Harricana Stroke Processor (Johnson, 1988)
Time/Tree, min            0.4732
Vol/PMH, ft3                    0
$/PMH                  192.4424
$/CCF                   #DIV/0!
Relevance                    1.00         0        192    #DIV/0!         1.00 192.442369              0

E) Hitachi EX150/Keto 500 (Schroder & Johnson, 1997)
Time/Tree, min              0.45
Vol/PMH, ft3                    0
$/PMH                        192
$/CCF                   #DIV/0!
Relevance                   1.00         0        192     #DIV/0!         1.00 192.442369              0

F) FERIC Generic (Gingras, J.F. 1996. The cost of product sorting during harvesting. FERIC Technical Note TN-245)
Vol/PMH, ft3                    0
$/PMH                        192
$/CCF                  #DIV/0!
Relevance                   1.00          0         192 #DIV/0!            1.00 192.442369             0

G) Valmet 546 Woodstar Processor (Holtzscher, M. and B. Lanford. 1997. Tree diameter effects on costs and productivity of cu
Time/Tree, min            -0.34
Vol/PMH, ft3                  0
$/PMH                       192
$/CCF                 #DIV/0!
Relevance                  1.00    0   192   #DIV/0!   1.00 192.442369   0


H) User-Defined Processor
Vol/PMH, ft3                   0
$/PMH                       192
$/CCF                  #DIV/0!
Relevance                  0.00    0   192   #DIV/0!   0.00         0    0
              Weighting
               Divisor




                        0




                        0




                        0




                        0




                        0

chnical Note TN-245)



                        0

s on costs and productivity of cut-to-length systems. For. Prod. J. 47(3):25-30)
0




0
Inputs                                               Dykstra note, 29 Feb 2008: No changes have been made to this works
Slope, %                                   3         It is not being used in the Billion-Ton update, and I consider it a low pri
YardDist, ft                          10560
CTLTrailSpacing, ft                       50
MoistureContentFraction, wet basis       0.5

Calculated Intermediates
ResidueST, GT/ac                   0.00
                                   1
CSlopeSkidForwLoadSize (Mellgren 90) .00

Bundling Inputs&Assumptions
RecoveredFractionOfResidues              0.5
BundleWeight, GT                         0.9

Bundling Calculated Values
BundlerHourlyCost, $/PMH              236.81
RecoveredResidue, GT/ac                 0.00

Bundle Forwarding Inputs
BoomReachF, ft                            20
LoadFractionForBundles                  0.75

Forwarding Calculated Values
DistPerMoveF, ft                    30
SmallForwarderHourlyCost, $/PMH 180.69

I. Bundle Residues within the stand                  II. Residue Forwarding

A) Timberjack Bundler (Cuchet-Roux-Spinelli, 2004)   A) Adjusted from Forwarding: Rottne 10-ton (McNeel & Rutherford, 19
MoveDist, ft/GT                 #DIV/0!              MaxLoadWeight, tons  11
Bundler-Limited Time, min/GT        4.09             LoadWeight, GT        8
Move, min/GT                    #DIV/0!              DistInterm, ft#DIV/0!
Load, min/GT                        7.85             DistOut, ft #DIV/0!
Wait, min/GT                        0.88             DistIn, ft    #DIV/0!
Total, min/GT                   #DIV/0!              BundlesPerLoad        9
GT/PMH                          #DIV/0!                            #DIV/0!
                                                     DistPerMove, ft
$/PMH                             236.81             Moves         #DIV/0!
$/GT                            #DIV/0!              LandingMoves          0
Relevance                           1.00                                 100
                                                     LandingMoveDistPerMove, ft
                                                     TravelOut, min#DIV/0!
                                                     Load, min          residues bundling project.)
B) Timberjack Bundler (Rummer, B., D. Len and O. O'Brien. 2004. Forest 4.62
MoveDist, ft/bundle             #DIV/0!              SortWoods, min 0.00
SwingsPerBundle                        3.9                          min
                                                     TravelInterm,#DIV/0!
TimePerBundle, min                                                 #DIV/0!
                                                     TravelLoaded, min
  Arrange slash                      0.06            Unload, min        2.69
  Feed                               2.10            SortLanding, min 0.00
  Wait                               0.96            MoveLanding, min   0.00
  Travel                        #DIV/0!              TurnTime, min #DIV/0!
  Rotate Bundler                     0.34            GT/PMH        #DIV/0!
  Cut Bundle                         0.15            $/PMH           180.69
  Total                         #DIV/0!              $/GT          #DIV/0!
GT/PMH                          #DIV/0!              Relevance          1.00
$/PMH                               236.81
$/GT                              #DIV/0!
Relevance                             1.00

C) User-Defined Bundler                                  B) User-Defined Residue Forwarding
GT/PMH                            0.00001                GT/PMH       0.00001
$/PMH                              236.81                $/PMH         180.69
$/GT                            ########                 $/GT       ########
Relevance                             0.00               Relevance        0.00


Bundle and Forward Residue Summary

I. Bundle Residues within the stand                                  Weighted
Machine:                             A          B            C       Average
GT/PMH                             #DIV/0!    #DIV/0!            0
$/PMH                                   237        237         237
$/GT                               #DIV/0!    #DIV/0!     ####### $      -
Relevance                              1.00       1.00        0.00

II. Residue Forwarding                                   Weighted
Machine:                            A           B        Average
GT/PMH                            #DIV/0!            0
$/PMH                                  181         181
$/GT                              #DIV/0!     ####### $          -
Relevance                             1.00        0.00
e been made to this worksheet.
 and I consider it a low priority.




(McNeel & Rutherford, 1994)
                                                  Chipping


Inputs                                     Dykstra note, 24 Feb 2008: I have not updated this worksheet from the FRCS-We
TreeVolCT, ft3             0.00            Chipping is a relatively low-cost item that doesn't vary so much, so this is a low pr
WoodDensityCT, green lb/ft3 50
LoadWeight, green tons        25
                             basis
MoistureContentFraction, wet 0.5

Chipping Inputs
ExchangeVans, min/load       5.3

Calculated Intermediates

CTLLogVolCT, ft3            0.00
ChipperSize                 0.00

Chipping Calculated Values
LoadWeight, drytons        12.5
TreeWeight, dry lb            0
CTLLogWeight, green lb        0
CTLLogWeight, dry lb          0
ChipperHourlyCost, $/PMH 145.94
                         129.54
SmallLoaderHourlyCost, $/PMH
I. Chip Whole Trees                        II. Chain Flail DDC Whole Trees         III. Chip CTL Logs

A) (Johnson, 1989)                         A) adjusted from Chip Whole Trees       A) Morbark 27 (Drews et al, 2001)
Chipper HP                   200           FlailProdAdjustment 0.90                ProdDelayFraction
GT/PMH                     16.33                                1.10
                                           Flail HrlyCostAdjustment                Time/GT, min
Vol/PMH, ft3                 653           $/PMH                 161               Time/Van, min
$/PMH                        146           $/CCF                0.00               Vol/PMH, ft3
$/CCF                      22.34           Vol/PMH, ft3    #DIV/0!                 $/PMH
Relevance                   1.00           Relevance            1.00               $/CCF
                                                                                   Relevance
B) Morbark 22 (Hartsough, unpublished)
Vol/PMH, ft3                  0                                                    B) Morbark 60/36 (Hartsough et al, 1997)
$/PMH                       146                                                    ProdDelayFraction
$/CCF                 #DIV/0!                                                      Logs/Swing
Relevance                  1.00                                                    ChipTime/Swing, min
                                                                                   Slash,min/Load
C) Morbark 60/36 (Hartsough et al, 1997)                                           Time/Van, min
ProdDelayFraction        0.038                                                     Vol/PMH, ft3
Logs/Swing            #DIV/0!                                                      $/PMH
ChipTime/Swing, min #DIV/0!                                                        $/CCF
Slash,min/Load            0.93                                                     Relevance
Time/Van, min         #DIV/0!
Vol/PMH, ft3          #DIV/0!
$/PMH                      146
$/CCF                 #DIV/0!
Relevance                 1.00

D) User-Defined Chip Whole Trees           II.B) User-Defined Chain Flail DDC WTIII.C) User-Defined Chip CTL Logs
Vol/PMH, ft3             0.001             Vol/PMH, ft3       0.001             Vol/PMH, ft3
$/PMH                      146             $/PMH                146             $/PMH
$/CCF                ########              $/CCF          ########              $/CCF


                                                 Page 206
                                                          Chipping


Relevance                     0.00                   Relevance             0.00              Relevance

Chipping Summary

I. Chip Whole Trees                                                               Weighted
Machine:                  A                 B            C             D          Average
Vol/PMH, ft3               653                   0     #DIV/0!              0
$/PMH                      146                146            146          146
$/CCF                 $ 22.34            #DIV/0!       #DIV/0!       ####### $         -
Relevance                 1.00               1.00           1.00         0.00

II. Chain Flail DDC WT                                Weighted
Machine:                  A                 B         Average
Vol/PMH, ft3            #DIV/0!                 0
$/PMH                        161              146
$/CCF                  $    -            ####### $            -
Relevance                   1.00             0.00

III. Chip CTL Logs                                                 Weighted
Machine:                  A          B                    C        Average
Vol/PMH, ft3               964           #DIV/0!               0
$/PMH                      146                146            146
$/CCF                 $ 15.14            #DIV/0!      ######### $          -
Relevance                 1.00               1.00           0.00

IV. Chip Piled Loose Residues at Landing    Weighted
Machine:                  A          B      Average
GT/PMH                        45          0
$/PMH                        275        275
$/GT                  $    6.19 ####### $        6.19
Relevance                   1.00       0.00

V. Chip Bundles of Residue at Landing       Weighted
Machine:                 A           B      Average
GT/PMH                       67           0
$/PMH                       275         275
$/GT                  $   4.13 ####### $         4.13
Relevance                  1.00        0.00




                                                          Page 207
                                                               Chipping


his worksheet from the FRCS-West version.
t vary so much, so this is a low priority.




                                   IV. Chip Piled Loose Residues at Landing

rk 27 (Drews et al, 2001)          A) Drum chippers (Desrochers, L., D. Puttock and M. Ryans. 1995. Recovery of roadside residues using
                   0.111                              13.5
                                   BDT/PMH (Erjo 120 HM 903, 550 Hp)
                    2.28                                31
                                   BDT/PMH (Nicholson WFP 3A, 600+215 Hp)
                   62.24           avg BDT/PMH       22.25
                     964           GT/PMH             44.5
                     146           $/PMH               275
                   15.14           $/GT               6.19
                    1.00           Relevance          1.00

rk 60/36 (Hartsough et al, 1997)   B) User-Defined Chip Piled Loose Residues at Landing
                  0.038            GT/PMH            0.001
               #DIV/0!             $/PMH                275
               #DIV/0!             $/GT          275486.65
                   0.93            Relevance           0.00
               #DIV/0!
               #DIV/0!
                    146
               #DIV/0!             V. Chip Bundles of Residue at Landing
                   1.00
                                   A) Assume 50% faster than chipping loose residues
                                   GT/PMH           66.75
                                   $/PMH              275
                                   $/GT              4.13
                                   Relevance         1.00

r-Defined Chip CTL Logs            B) User-Defined Chip Bundles of Residue at Landing
                 0.001             GT/PMH           0.0001
                   146             $/PMH               275
             ########              $/GT          ########


                                                              Page 208
                          Chipping


0.00   Relevance   0.00




                          Page 209
                                                             Chipping




covery of roadside residues using drum chippers. FERIC Technical Report TR-111)




                                                             Page 210
General Inputs                                                Values that may differ for Yarding of CTL Logs
Area, ac                                      1
YardDist, ft                              10560
WoodDensity, lb/ft3                   103.48378               WoodDensityST, lb/ft3                   0.0
Elevation, ft                                 0

Calculated Intermediates
VolPerAcre, ft3                         2295.27               VolPerAcreST, ft3                        0
LogVol, ft3                                73.9               LogVolST, ft3                 #DIV/0!

Helicopter Inputs
HookAreaDiam, ft                             75
ExtraServiceFlightDist, ft one-way         5000
HeliCruiseSpeed, mi/hr                      120

Helicopter Calculated Values
HookArea, ac                               0.102
WtInHookArea, lb                          24120               WtSTInHookArea, lb                       0
VolInHookArea, ft3                         233.1              VolSTInHookArea, ft3          #DIV/0!
LogWt, lb                                   7651              LogWtST, lb                   #DIV/0!

Most information below taken from LogCost 5.1
                                               B) Boeing Vertol 107 - 61A
                                  A) Bell 204 class       C) K-MAX                      D) User-Defined E) Average
Flight Time and Related Assumptions
  FlightTime, hrs/day                     6.00      6.76                        8.50
  ServiceCycles/day                          7          7                          7
  YardingSpeed, mi/hr                       39         58                         60

Cost Assumptions
 Fixed, $/day                              3700       7580                      6750
 Variable, $/FlightHr                       340       1052                       840
 Support, $/day                             460       2155                      1000
 Labor, $/person-day                        263        263                       263
 Woods&Landing Laborers                        6         10                         9
 Profit&Risk Fraction                        0.1        0.1                       0.1
 Loader, $/day                              770        770                       770
 Loaders                                       1          2                         2

Helicopter Cost Calculations
  Variable, $/day                          2040       7112                    7140
  Fixed, $/FlightHr                         617       1121                     794
  Fixed+Var, $/FlightHr                     957       2173                    1634                            1588
 Labor, $/day                              1578       2630                    2367
  Total, $/day                             8556      21424                   18983
Loader Cost Calculations
 Loader, $/day
  Total, $/day                             1136       2273                      2273              1000

                                     I. Helicopter Yarding, Manual Log-Length                           II. Helicopter Yarding, CTL
                                                   B) Boeing Vertol 107 - 61A
                                     A) Bell 204 class        C) K-MAX                  D) User-Defined A) Bell 204 class
Payload Calculations
 ObservedAvgAtElev, lb                     4,500      8,160                   4,801                          4,500
  LogWt/MaxPayload                1.36       0.75                1.27                   #DIV/0!
  MaxPayloads/HookArea              4.3        2.4                 4.0                       0.0
  LoadAdjustFactor                0.90       0.87                0.90                   #DIV/0!
  AfterAdjustment, lb            4,050      7,122               4,321                   #DIV/0!
  AfterOne-Log-MinCheck, lb      4,500      7,651               4,801                   #DIV/0!
  After10-Log-MaxCheck, lb       4,500      7,651               4,801                   #DIV/0!
Cycle Time Calcs
  Load&Unload, min                 1.63       1.18                1.15                      1.63
  TravEmpty&Loaded, min            6.15       4.14                4.00                      6.15
  TotalCycleTime, min              7.78       5.32                5.15                      7.78
ServiceFlightTime, min/day         20.4       13.7                13.3                      20.4
TurnsPerDay                          44         74                  96                        44
TonsPerDay                           98        282                 232                  #DIV/0!
CCF/day                            19.0       54.5                44.7          0.001   #DIV/0!
$/day                             8556      21424               18983          10000       8556
$/CCF                           450.96     393.25              424.21    10000000.00    #DIV/0!
Relevance                          0.00       0.00                0.00           0.00       0.00

Helicopter Yarding Summary

I. Manual Log-Length
Machine:                        A           B          C                     D          Average
Vol/day, CCF                         19         54                  45              0
$/day                             8556      21424               18983          10000
$/CCF                           450.96     393.25              424.21    10000000.00    #DIV/0!
Relevance                          0.00       0.00                0.00           0.00

II. CTL
Machine:                        A           B          C                     D          Average
Vol/PMH, ft3                  #DIV/0!     #DIV/0!    #DIV/0!                        0
$/day                             8556      21424              18983           10000
$/CCF                         #DIV/0!     #DIV/0!    #DIV/0!             10000000.00    #DIV/0!
Relevance                          0.00       0.00               0.00            0.00

Helicopter Loading Summary

I. Manual Log-Length
Machine:                        A           B          C                     D          Average
Vol/day, CCF                         19         54                  45              0
$/day                             1136       2273                2273           1000
$/CCF                            59.89      41.71               50.79     1000000.00    #DIV/0!
Relevance                          0.00       0.00                0.00           0.00

II. CTL
Machine:                        A           B          C                     D          Average
Vol/day, CCF                  #DIV/0!     #DIV/0!    #DIV/0!                        0
$/day                             1136       2273               2273            1000
$/CCF                         #DIV/0!     #DIV/0!    #DIV/0!              1000000.00    #DIV/0!
Relevance                          0.00       0.00               0.00            0.00
             Dykstra notes, 22 Feb 2008:
                        No changes have been made to this worksheet.
                        Helicopter yarding is unlikely to be widely used for fuel-reduction treatments.
                        Therefore, updating this worksheet is a low priority.




E) Average




II. Helicopter Yarding, CTL
                        C) K-MAX D) User-Defined
             B) Boeing Vertol 107 - 61A

                  8,160      4,800
#DIV/0!    #DIV/0!
     0.0        0.0
#DIV/0!    #DIV/0!
#DIV/0!    #DIV/0!
#DIV/0!    #DIV/0!
#DIV/0!    #DIV/0!

    1.18       1.15
    4.14       4.00
    5.32       5.15
    13.7       13.3
      74         96
#DIV/0!    #DIV/0!
#DIV/0!    #DIV/0!        0.001
  21424      18983       10000
#DIV/0!    #DIV/0! 10000000.00
    0.00       0.00        0.00
                                                Loading


General Inputs                           Dykstra note, 24 Feb 2008: This worksheet has not yet been updated from the FR
LoadWeight, green tons       25          Loading does not vary so much regionally so I consider this a low priority.
                         103.5
WoodDensityALT, green lb/ft3
WoodDensitySLT, green lb/ft350
Calculated Intermediates
CTLLogVol, ft3            0.00
LogVolALT, ft3           73.93
DBHALT, in               35.35
DBHSLT, in                0.00
MachineSize               0.89

Loading Inputs
ExchangeTrucks, min/load       5

Loading Calculated Values
LoadVolALT, ccf            4.83
LoadVolSLT, ccf           10.00
LoaderHourlyCost, $/PMH157.67

I. Loading Full-Length Logs              II. Loading CTL Logs

A) Front-End Loader (Vaughan, 1989)      A) Knuckleboom Loader, CTL Logs (Brown & Kellogg, 1996)
Time/Load, min           17.46           CCF/Pmin          0.10
Vol/PMH, ft3              1660           Time/Load, min105.00
$/PMH                       158          Vol/PMH, ft3       571
$/CCF                      9.50          $/PMH              158
Relevance                  1.00          $/CCF           27.59
                                         Relevance         1.00
B) Knuckleboom Loader, Small Logs (Brown & Kellogg, 1996)
CCF/Pmin                 1.50            B) Loaders (Jackson et al, 1984)
Time/Load, min           8.21            Vol/PMH, ft3     1104
Vol/PMH, ft3            3531             $/PMH              158
$/PMH                     158            $/CCF           14.28
$/CCF                    4.47            Relevance         0.50
Relevance                0.00

C) Loaders (Hartsough et al, 1998)
Time/CCF, min               1.97
Time/Load, min              9.50
Vol/PMH, ft3               3050
$/PMH                        158
$/CCF                       5.17
Relevance                   0.80

D) Loaders (Jackson et al, 1984)
Vol/PMH, ft3                4018
$/PMH                         158
$/CCF                        3.92
Relevance                    1.00

E) User-Defined Load Full-Length Logs    C) User-Defined Load CTL Logs
Vol/PMH, ft3              0.001          Vol/PMH, ft3   0.001


                                               Page 215
                                                   Loading


$/PMH                      158            $/PMH           158
$/CCF                ########             $/CCF     ########
Relevance                 0.00            Relevance      0.00

Loading Summary

I. Loading Full-Length Logs                                                  Weighted
Machine:                   A         B         C             D          E    Average
Vol/PMH, ft3                1660      3531      3050          4018           0
$/PMH                         158       158       158           158        158
$/CCF                  $    9.50 $    4.47 $    5.17 $        3.92    ####### $   5.44
Relevance                    1.00      0.00      0.80          1.00       0.00

II. Loading CTL Logs                                   Weighted
Machine:               A       B               C       Average
Vol/PMH, ft3              571   1104              0
$/PMH                     158     158           158
$/CCF                $ 27.59 $ 14.28       ####### $          -
Relevance                1.00    0.50          0.00




                                                   Page 216
                                           Loading


been updated from the FRCS-West version.
this a low priority.




                                           Page 217
                                                 MachineCosts


See CostUpdates worksheet also                                                 All Others
                                                                   Faller or Bucker
Wage and benefit rates ($/person-SH)=                                   32.49       25.77

Machine description:                                               Chainsaw FBuncher FBuncher FBuncher
1. Input Data:                                                                          S
                                                                             DriveToTree wingBoom SelfLeveling
Purchase price as of Dec 02 (P, $) =                                     824 176,670 365,119 365,119
Machine Horsepower rating (hp) =                                                    150       200        240
Machine life (n, years) =                                                  1          3         5          5
Salvage value, percent of purchase price (sv%)                          20%        20%       15%        15%
Utilization rate, ph/sh (ut%) =                                         50%        65%       60%        60%
Repair and maintenance, percent of depreciation (rm%) =                700%       100%       75%        75%
Interest rate, percent of avg yearly investment (in%) =                  8%         8%        8%         8%
Insurance and tax rate, percent of avg yearly investment (it%) =         7%         7%        7%         7%
Fuel consumption rate (fcr, gal/hp-ph) =                                          0.026     0.026      0.026
Fuel cost per gallon (fcg, $/gal) =                                               2.607     2.607      2.607
Lube and oil, percent of fuel cost (lo%) =                                         37%       37%        37%
Crew size (persons) =                                                                1         1          1
Crew wage and benefits (WB, $/SH) =                                    32.49      25.77     25.77      25.77
Scheduled machine hours (SMH, sh/year) =                                1600       1600      1600       1600

2. Calculations:
Salvage value (S, $) = (P*sv%) =                                         165       35334     54768     54768
Annual depreciation (AD, $/year) = [(P-S)/n] =                           660       47112     62070     62070
Average yearly investment (AYI, $) = [(((P-S)*(n+1))/2n)+S] =            824      129558    240978    240978
Productive Machine Hours (PMH, ph/year) = (SMH*ut%) =                    800        1040       960       960

3. Ownership costs:
Interest cost (IN, $/year) = (in%*AYI) =                                   66      10365     19278     19278
Insurance and tax cost (IT, $/year) = (it%*AYI) =                          58        9069    16868     16868
Yearly ownership cost (F$, $/year) = (AD+IN+IT) =                         783      66546     98217     98217
Ownership cost per SMH ($/sh) = (F$/SMH) =                               0.49       41.59     61.39     61.39
Ownership cost per PMH ($/ph) = (F$/PMH) =                               0.98       63.99   102.31    102.31

4. Operating costs:
Fuel cost (F, $/ph) = (hp*fcr*fcg) =                                    0.00        10.17    13.56     16.27
Lube cost (L, $/ph) = (F*lo%) =                                         0.00         3.76     5.02      6.02
Repair and maintenance cost (RM, $/ph) = (AD*rm%/PMH) =                 5.77        45.30    48.49     48.49
Operator labor and benefit cost per PMH (WB/ut%, $/ph) =               64.97        39.64    42.94     42.94
Operating cost per PMH (V$/PMH) = [F+L+RM+(WB/ut%)] =                  70.74        98.87   110.01    113.72
Operating cost per SMH (V$/SMH) = (V$/PMH*ut%) =                       35.37        64.26    66.00     68.23

5. Total Costs
Total cost per SMH ($/SMH = (F$/SMH+V$/SMH)                            35.86       105.86   127.39    129.62
Total cost per PMH ($/PMH = (F$/PMH+V$/PMH)                            71.72       162.85   212.32    216.03

User over-ride, $/PMH

Value used to calculate results, $/PMH                                 71.72       162.85   212.32    216.03

                                                                                FBuncher
Avg Owning Cost, $/PMH (for move-in cost calcs)                                     89.54




                                                    Page 218
                                                MachineCosts




Harvester Harvester Skidder     Skidder    Forwarder Forwarder Yarder       Yarder      Processor
small      big       small      big        small      big       small       intermediatesmall
  412,231 530,011 164,892 235,561 282,673 365,119 188,448 388,675 353,341
       120       200        120       200         110       200         100         200        120
         4         4          5          4          4         4          10          10          5
      20%       20%        20%       20%         25%       20%        10%         10%         20%
      65%       65%        65%       65%         65%       65%        75%         75%         65%
    110%       110%        90%       90%       100%       100%      100%         100%       100%
       8%        8%         8%         8%         8%        8%          8%          8%         8%
       7%        7%         7%         7%         7%        7%          7%          7%         7%
    0.029      0.029     0.028      0.028      0.025      0.025        0.04        0.04     0.022
    2.607      2.607     2.607      2.607      2.607      2.607     2.607        2.607      2.607
      37%       37%        37%       37%         37%       37%        10%         10%         37%
        1         1          1          1          1         1           5           5          1
    25.77      25.77     25.77      25.77      25.77      25.77    128.83       128.83      25.77
      1600      1600       1600      1600        1600      1600       1600        1600        1600


   82446     106002       32978     47112        70668     73024        18845     38867      70668
   82446     106002       26383     47112        53001     73024        16960     34981      56535
  288562     371008      112127    164892       203171    255583       112127    231262     240272
    1040       1040        1040      1040         1040      1040         1200      1200       1040


    23085      29681        8970     13191       16254      20447         8970   18501       19222
    20199      25971        7849     11542       14222      17891         7849   16188       16819
  125730     161653       43202      71846       83477    111361        33779    69670       92575
     78.58    101.03       27.00      44.90       52.17      69.60       21.11    43.54       57.86
   120.89     155.44       41.54      69.08       80.27    107.08        28.15    58.06       89.01


     9.07      15.12        8.76     14.60         7.17    13.04         10.43    20.86        6.88
     3.36       5.59        3.24      5.40         2.65     4.82          1.04     2.09        2.55
    87.20     112.12       22.83     40.77        50.96    70.22         14.13    29.15       54.36
    39.64      39.64       39.64     39.64        39.64    39.64        171.77   171.77       39.64
   139.27     172.47       74.47    100.41       100.42   127.71        197.37   223.86      103.43
    90.53     112.11       48.41     65.27        65.27    83.01        148.03   167.89       67.23


   169.11     213.14       75.41    110.17       117.45   152.61        169.14   211.44      125.09
   260.17     327.91      116.01    169.49       180.69   234.79        225.52   281.92      192.44



   260.17     327.91      116.01    169.49       180.69   234.79        225.52   281.92      192.44

Harvester              Skidder                Forwarder              Yarder               Processor
   138.17                  55.31                  93.67                  43.10               103.85




                                                  Page 219
                                               MachineCosts




Processor Loader      Loader     Chipper    Chipper    Bundler    HelicoptersLoaders for Helicopter Yarding
big        small      big        small      big
   471,121 223,783 294,451 235,561 353,341 530,011
       200        120       200         350       700        180
         5          5          5          5          5          5
      20%        30%       30%         20%       20%        20%
      65%        65%       65%         75%       75%        75%
     100%        90%       90%       100%       100%       100%
       8%         8%         8%         8%        8%         8%
       7%         7%         7%         7%        7%         7%
     0.022     0.022      0.022      0.023      0.023      0.025
     2.607     2.607      2.607      2.607      2.607      2.607
      37%        37%       37%         37%       37%        37%
        1          1          1          1          1          1
     25.77     25.77      25.77      25.77      25.77      25.77
      1600       1600      1600        1600      1600       1600


   94224        67135     88335       47112     70668      106002
   75379        31330     41223       37690     56535       84802
  320362       161123    212005      160181    240272      360408
    1040         1040      1040        1200      1200        1200


    25629       12890     16960       12814     19222        28833
    22425       11279     14840       11213     16819        25229
  123434        55498     73024       61717     92575      138863
     77.15       34.69     45.64       38.57     57.86        86.79
   118.69        53.36     70.22       51.43     77.15      115.72


    11.47         6.88    11.47        20.99    41.97        11.73
     4.24         2.55     4.24         7.76    15.53         4.34
    72.48        27.11    35.67        31.41    47.11        70.67
    39.64        39.64    39.64        34.35    34.35        34.35
   127.83        76.18    91.03        94.51   138.97       121.09
    83.09        49.52    59.17        70.88   104.23        90.82


   160.24        84.20   104.81       109.46   162.09       177.61
   246.52       129.54   161.24       145.94   216.11       236.81



   246.52       129.54   161.24       145.94   216.11       236.81

             Loader                Chipper               Bundler
                 61.79                 64.29                115.72




                                                 Page 220
                        MachineCosts




or Helicopter Yarding




                         Page 221
                                                 MoveInCosts




MoveIn Inputs
Area, acres                    1
MoveInDist, miles one way      0

Move-In Assumptions
SpeedLoaded, mph:             25
SpeedBack, mph                40
MoveInLabor, $/SH              0
LoadHrs, SH/load               2
LoadHrsYarder, SH/load         4
Truck,$/SH                    35
Truck Driver, $/SH            18

Move-In Calculated Values
TravLoadedHrs, SH/load         0
BackhaulHrs, SH/load           0
LowboyCost, $/SH              53

System Costs
                    Ground-Based
                    Manual Log          Manual WT                  Mech WT                     CTL               Manual Log
LowboyLoads                           2                        3                        4                   3
Fixed, $            skidder         217 skidder              217   fellerbuncher      285   harvester     382
                    loader          230 processor            314   skidder            217   forwarder     293
                    chipper           0 loader               230   processor          314   loader        230
                                        chipper                0   loader             230   chipper         0
                                                                   chipper              0
                    Total            446   Total           760     Total            1045    Total          905
Variable, $/mile    skidder         4.33   skidder        4.33     fellerbuncher     5.70   harvester     7.65
                    loader          4.59   processor      6.27     skidder           4.33   forwarder     5.87
                    chipper         0.00   loader         4.59     processor         6.27   loader        4.59
                    Backhaul        2.65   chipper        0.00     loader            4.59   chipper       0.00
                                           Backhaul       3.98     chipper           0.00   Backhaul      3.98
                                                                   Backhaul          5.30
                    Total          11.57 Total           19.17     Total           26.20    Total        22.08
Total, $                             446                   760                      1045                   905
$/CCF                              19.44                 33.11                     45.53                #N/A




                                                  Page 222
                                               MoveInCosts




Cable                                 Cable                                        Helicopter
Manual Log              CTL         Manual WT/Log              Manual WT           Manual Log
                2                   3                        3                4                    2
yarder        192 harvester       382 yarder               192 yarder       192 helicopter      1588
loader        230 yarder          192 loader               230 processor    314 loaders          459
chipper         0 loader          230 chipper                0 loader       230 chipper            0
                  chipper           0                          chipper        0

Total          422   Total         804   Total           422   Total         735   Total         2047
yarder        3.84   harvester    7.65   yarder         3.84   yarder       3.84   helicopter   26.47
loader        4.59   yarder       3.84   loader         4.59   processor    6.27   loaders        9.18
chipper       0.00   loader       4.59   chipper        0.00   loader       4.59   chipper        0.00
Backhaul      2.65   chipper      0.00   Backhaul       3.98   chipper      0.00   Backhaul       2.65
                     Backhaul     3.98                         Backhaul     5.30

Total        11.09 Total         20.06 Total           12.41 Total         20.01 Total          38.30
               422                 804                   422                 735                 2047
             18.38               35.03                 18.38               32.04                89.19




                                                Page 223
                                             MoveInCosts




                        Bundling
CTL                     Residues
                  3                     2
harvester       382 bundler           337
helicopter     1588 forwarder         293
loaders         459
chipper           0

Total           2430    Total          631
harvester        7.65   bundler       6.75
helicopter     26.47    forwarder     5.87
loaders          9.18   Backhaul      2.65
chipper          0.00
Backhaul         3.98

Total          47.27 Total           15.27
                2430                   631
             #N/A    $/GT:          #N/A




                                              Page 224
FRCS_242.xls                                                                                               9/16/2005 3:29:00 PM



                                  Settings: Treatment Profile
System       Ground-Based Manual WT                   Elevation                               0
YardDist, ft    10560
Slope, %             3                                Partial cut                  Yes
Area, acres          1                                Include move-in cost         No
                     0
MoveInDist, miles one way                                                          Yes
                                                      Include costs of collecting and chipping residues
Chip Trees Vol/tree         Small Log Trees
                                       Vol/tree(ft3 Large Log Trees
                                                    Trees/acr                         $/CCF       $/Ton           $/Acre
Trees/acre (ft3)            Trees/acre )            e         Vol/tree(ft3)

                                              Machine Cost Settings
Machine    Altered          Default      Used                     Machine            Default
                                                                               Altered          Used
Bundler               0.0        236.8        236.8               Harvester big 0.0       327.9      327.9
Chainsaw              0.0           71.7       71.7               Harvester small0.0      260.2      260.2
Chipper big         0.0          216.1        216.1               Loader big    0.0       161.2           161.2
Chipper small       0.0          145.9        145.9               Loader small 0.0        129.5           129.5
                    0
Fbuncher DriveToTree.0           162.9        162.9               Processor big 0.0       246.5           246.5
                    0
Fbuncher SelfLeveling.0          216.0        216.0                             0.0
                                                                  Processor small         192.4           192.4
Fbuncher SwingBoom  0.0          212.3        212.3               Skidder big   0.0       169.5           169.5
Forwarder big       0.0          234.8        234.8               Skidder small 0.0       116.0           116.0
Forwarder small       0.0        180.7        180.7                             0.0
                                                                  Yarder intermediate     281.9           281.9
                                                                  Yarder small 0.0        225.5           225.5




                                                        Page 225 of 269
FRCS_242.xls                     9/16/2005 3:29:00 PM




               Page 226 of 269
FRCS_242.xls                     9/16/2005 3:29:00 PM




               Page 227 of 269
                                             Appendix
See below: Table 1. Oven-dry weight of logs for selected species (from line 9).
           Table 2. Ratio of top weight to bole weight for selected species (from line 24).
           Table 3. Volume of logs in cubic feet to a 4 inch minimum top by species, tree diameter,
           and height (from line 40).
           References for Data Used in FRCS (from line 105).

Table 1—Oven-dry weight of logs in pounds per cubic foot to a 4”
minimum top by species and tree diameter.

                                             DBH
Species          6          7          8           9           10          11+
Alpine fir                      18.1       18.4        18.6         18.7      18.8
Douglas-fir                     27.1       27.5          27         27.8      27.9
Engelmann                       19.2       19.6        19.8         19.9        20
spruce
Grand fir            19.6         20       20.6        20.8           21        21.2
Lodgepole            20.8       21.6       22.1        22.4         22.7          23
pine
Mountain              24        24.5       24.9        25.1         25.2        25.4
hemlock
Ponderosa                                  23.2        23.2         23.2        23.1
pine
Red cedar            17.3       17.9       18.3        18.5         18.7        18.8
Western                         24.5       24.9        25.1         25.3        25.4
hemlock
Western               28         28        28.4        28.7         28.8        29.1
larch
White pine                      20.6       20.9         21          21.1        21.2



Table 2—Ratio of the weight of tops above a 4” minimum and limbs, to the weight of logs by
species and tree diameter.

                                                         DBH
Species          6          7          8           9           10          11          12          13+
Alpine fir                      1.05       0.89         0.8         0.76        0.73        0.72      0.7
Douglas-fir                     0.95       0.73        0.61         0.54        0.49        0.46     0.41
Engelmann                       1.08       0.77        0.61         0.51        0.45        0.41     0.32
spruce
Grand fir            1.26       0.81       0.61        0.51         0.44         0.4        0.38     0.33
Lodgepole               1       0.64       0.47        0.39         0.33         0.3        0.28     0.24
pine
Mountain             1.05       0.73       0.58         0.5         0.46        0.43        0.41     0.38
hemlock
Ponderosa                                   0.9        0.78          0.7        0.64         0.6     0.46
pine
Red cedar            0.53       0.32       0.23        0.19         0.16        0.14        0.13     0.12
Western                         0.31       0.22        0.17         0.15        0.13        0.12      0.1
hemlock
Western              1.22       0.76       0.55        0.44         0.37        0.33         0.3     0.25
larch
White pine                  0.76       0.56       0.46      0.39       0.36       0.34         0.31



Table 3--Volume of logs in cubic feet to a 4 inch minimum top by species, tree diameter, and
height.

                 Alpine fir       Douglas-fir     Englemann spruce      Grand fir
DBH          Height Log Volume Height Log Volume Height Log Volume Height Log Volume
  Inches      Feet    Cubic feet Feet  Cubic feet   Feet   Cubic feet Feet  Cubic feet
       6.0
       6.0                                                                         41            3
       6.0         46          3         48         3         45          3        53            4
       7.0                                                                         35            3
       7.0         42          4         42         4         41          4        48            5
       7.0         52          5         54         5         51          5        60            6
       8.0         36          4         34         4         35          5        41            5
       8.0         47          6         47         6         46          6        54            7
       8.0         57          8         60         7         57          8        67           10
       9.0         40          6         38         5         39          6        45            7
       9.0         51          9         52         8         50          9        59           10
       9.0         62         11         66        10         62         11        73           14
      10.0         44          9         41         7         42          9        49           10
      10.0         56         12         56        11         55         11        64           14
      10.0         67         15         71        14         67         15        80           19
      11.0         47         11         45         9         45         11        53           13
      11.0         59         15         61        14         58         15        69           18
      11.0         71         19         76        18         71         19        84           24
      12.0         50         14         48        12         48         14        57           17
      12.0         63         19         65        18         62         19        73           23
      12.0         75         24         82        23         75         24        89           30
      13.0         52         17         51        15         51         18        61           21
      13.0         66         23         69        22         65         23        77           29
      13.0         79         29         87        29         79         29        93           37
      14.0         55         21         53        18         54         22        65           26
      14.0         68         27         73        27         69         28        81           35
      14.0         82         35         92        35         83         35        97           45
      15.0         57         25         56        22         57         26        68           30
      15.0         71         32         76        32         72         33        84           42
      15.0         85         41         96        42         87         42       101           53
      16.0         60         30         59        26         59         31        70           36
      16.0         74         38         80        38         75         40        87           49
      16.0         88         48        100        49         91         49       104           63
      17.0         61         34         61        30         62         36        72           41
      17.0         76         43         83        44         78         46        90           56
      17.0         91         55        104        57         94         57       107           72
      18.0         62         38         63        34         64         42        74           46
      18.0         78         49         86        51         81         53        92           63
      18.0         94         62        108        66         97         66       110           82
      19.0         63         43         66        39         66         47        77           53
      19.0         79         55         89        58         83         61        95           72
      19.0         96         70        112        76        101         76       112           92
20.0   64    48    68    44    68    54     80   60
20.0   81    62    92    66    86    69     97   81
20.0   98    78    116   87    104   86    114   103
21.0   67    55    70    50    70    61     83   68
21.0   83    69    95    75    89    78    100   91
21.0   100   87    120   98    107   97    117   116
22.0   69    62    72    56    73    68     85   76
22.0   85    77    98    84    91    88    103   102
22.0   102   96    123   111   110   109   120   129
23.0   70    68    73    62    75    76     87   83
23.0   87    85    100   94    94    98    104   112
23.0   104   105   127   124   113   121   122   142
24.0   72    75    75    68    77    85     88   91
24.0   89    94    103   104   96    109   106   122
24.0   105   115   131   138   116   135   124   155
References for Data used in FRCS
Updated March 2, 2008.
References shown in blue have been added by Dennis Dykstra in February and March 2008.

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51.
                Lodgepole pine    Mountain hemlock Ponderosa pine        Red cedar
DBH            Height Log Volume Height Log Volume Height Log Volume Height Log Volume
 Inches         Feet   Cubic feet  Feet    Cubic feet Feet  Cubic feet Feet   Cubic feet
          6
          6         43        3        46        3                          39        3
          6         54        4        59        3                          49        3
          7         36        4        38        3                          33        3
          7         48        5        52        5                          44        4
          7         60        7        66        6       43        3        55        6
          8         41        6        43        5                          38        5
          8         53        8        58        7       35        4        50        7
          8         65       10        73        9       48        5        61        8
          9         44        8        48        8                          42        7
          9         56       11        63       10       38        5        54        9
          9         69       13        79       13       52        8        67       12
          10        47       10        53       11                          46        9
          10        60       14        69       14       41        7        59       12
          10        73       18        85       18       56       10        72       15
          11        49       13        57       14       27        6        49       12
          11        62       18        73       19       44        9        62       15
          11        75       22        90       24       60       13        76       19
          12        51       16        61       18       28        7        51       15
          12        65       22        78       24       46       12        66       19
          12        78       27        95       31       64       17        80       24
          13        52       20        65       23       29        9        55       18
          13        67       26        82       30       49       15        69       23
          13        81       33       100       38       68       22        84       29
          14        54       24        69       28       31       10        58       22
          14        69       31        87       37       52       18        73       28
          14        83       39       105       47       72       27        88       35
          15        54       27        72       34       33       12        60       26
          15        70       36        91       44       55       22        75       33
          15        85       45       109       56       76       33        91       41
          16        55       31        75       40       35       15        63       30
          16        70       41        94       53       58       26        78       38
          16        86       51       114       67       80       39        94       48
          17        56       36        79       48       37       18        65       34
          17        72       47        98       62       61       32        81       44
          17        87       58       117       77       84       47        96       55
          18        57       41        83       56       39       21        68       39
          18        73       53       101       72       64       37        83       50
          18        89       66       120       88       89       55        99       62
          19        58       46        85       64       44       26        70       44
          19        74       60       104       82       68       45        86       56
          19        90       74       123      101       92       64       102       71
20   58    51   87    72    48    33    71    50
20   74    66   107   92    72    53    89    63
20   90    82   126   115   96    75    106   81
21   58    56   89    82    53    40    73    55
21   74    72   109   104   76    62    90    70
21   89    88   128   128   99    86    107   89
22   58    61   92    93    58    48    74    61
22   73    77   111   116   80    73    92    77
22   88    95   130   142   102   98    109   98
23   58    67   95    104   62    57    76    67
23   74    86   114   130   84    83    93    84
23   90   105   134   159   106   111   110   106
24   59    74   98    117   65    66    78    74
24   75    94   117   145   87    95    95    91
24   91   116   137   177   109   126   111   114
               Western hemlock    Western larch     Western white pine
DBH            Height Log Volume Height Log Volume Height Log Volume
 Inches         Feet   Cubic feet Feet   Cubic feet  Feet    Cubic feet
          6                            41         2
          6                            53         3
          6                            65         4       48         3
          7                            48         4
          7         34         3       60         5       44         4
          7         42         4       72         7       58         6
          8         30         4       55         7       34         4
          8         39         5       67         8       51         7
          8         48         6       80        10       69         9
          9         35         6       60         9       44         7
          9         43         7       73        12       61        10
          9         52         8       85        14       77        14
          10        39         8       65        13       54        11
          10        48        10       78        15       70        15
          10        57        11       91        18       86        19
          11        43        11       68        16       56        14
          11        53        13       82        20       74        19
          11        63        16       95        23       91        24
          12        47        14       72        20       59        17
          12        57        17       85        24       78        24
          12        68        21       99        28       96        30
          13        48        17       75        24       63        21
          13        61        21       89        29       83        29
          13        73        26      103        34      102        37
          14        50        20       79        29       68        26
          14        64        26       93        35       88        36
          14        77        32      106        41      107        45
          15        53        25       82        35       71        31
          15        68        32       96        42       91        43
          15        82        39      110        48      111        53
          16        57        30       85        41       73        37
          16        72        38       99        49       94        49
          16        87        47      113        56      115        63
          17        58        34       88        47       69        38
          17        74        44      102        56       91        53
          17        89        55      117        65      114        70
          18        59        39       91        54       65        40
          18        75        50      106        65       89        56
          18        91        63      121        74      112        76
          19        63        45       92        60       66        45
          19        78        58      107        72       93        64
          19        93        71      122        83      120        91
20   66     52   93    67    67    50
20   81     66   109   81    97    74
20   95     80   124   93    127   107
21   69     60   96    76    75    62
21   84     76   112   92    101   86
21   99     92   129   106   127   117
22   72     68   99    85    84    74
22   87     86   116   103   105   99
22   102   105   134   120   127   127
23   73     75   102   96    73    72
23   91     99   118   114   102   101
23   108   122   135   131   130   142
24   75     84   105   107   63    67
24   95    112   120   126   98    102
24   114   141   136   143   134   158
Batch Mode Instructions
        Batch Process Error Report
Data File
1. In order to use the batch mode, the user must prepare a data file that contains stand profiles in a specific format. Although
column headings are unimportant, the inputs are read by FRCS in specific column orders. Table 1 below lists the columns and
their required contents. The first row of the table contains only column headers. Other rows contain the actual data.
2. Save your data file as an Excel workbook with the data page named FRCS Data. When the dataset is loaded, FRCS will look
for a worksheet named FRCS Data and the text Stand in cell A1 of that worksheet. An error will occur if the datafile is not
formatted according to these instructions.
3. Billion-Ton Processing. If the option to enable Billion-Ton Processing is checked on the Interface Page, FRCS will follow a
special set of rules when processing the batch datafile. These are somewhat different from the normal rules because of the
special requirements of the Billion-Ton Study, which uses FRCS results to prepare supply curves for forest biomass. The
special Billion-Ton Rules are as follows:
          (a) If slope as indicated in column C of the data worksheet is ≤ 40% (the number 40 in column C would be
          interpreted as 40%), then one of two ground-based logging systems is to be used: Ground-Based Mech WT or
          Ground-Based Manual WT.

          (b) For ground-based logging, the Billion-Ton variant of FRCS calculates the production volumes and costs for both
          of the possible alternatives. It then selects the lower-cost alternative and enters the system name and the simulation
          results on the data worksheet.

          (c) If the slope is > 40%, cable yarding is to be used. Only one cable system is considered by the Billion-Ton variant
          of FRCS: Cable Manual WT. This is because it is the only cable yarding system among the FRCS options that can
          include the collection of residues. Helicopter logging is not considered as an alternative for the Billion-Ton Study.


Table 1: Batch Datafile Format

Column Heading                        Description
   A   Stand                          An identifier by which the treatment area and any special condition, such as the fuel-
                                      condition class, can be identified. The FRCS batch processor terminates the simulation
                                      when it encounters an empty value in this column. This is the only column required to
                                      have a header, and it must include only the word Stand.
    B     State                       The state in which the operation is located. This can be either written as a full name (e.g.,
                                      North Carolina) or as a two-letter abbreviation (NC). The name or abbreviation must be
                                      properly capitalized. The names and abbreviations used can be seen in the
                                      States&Regions worksheet of FRCS.

    C     Slope                       Average stand slope in percent. 20 in this column = 20%.
    D     AYD                         Average yarding distance, in feet, calculated as one-half the distance from the plot to the
                                      nearest road.
    E     Treatment Area              Area to be treated, in acres. This is not needed unless move-in costs are to be
                                      calculated. When move-in costs are not calculated the treatment area is considered to be
                                      one conceptual acre, although any value in this column will be left unchanged.
    F     Elev                        Elevation of the treatment area, in feet. This value is used only with helicopter logging.


    G     System                      One of the set of 10 logging systems recognized by FRCS. This information is not used
                                      by the Billion-Ton variant of FRCS but the batch-processing routine may fail to run if the
                                      value in this column is not one of the 10 systems that FRCS recognizes. For the Billion-
                                      Ton variant of FRCS it is safe to always enter Ground‑Based Mech WT in this column.
                                      FRCS may change this as appropriate during the simulation if Billion-Ton processing has
                                      been enabled.
    H     CT/ac                       Number of chip trees (biomass trees) to be removed per acre.
    I     CT residue fraction         A number between 0 and 1 representing the volume of residues that could potentially be
                                      collected from each chip tree, expressed as a fraction of the chip tree’s total volume.
                                      FRCS assumes that 80% of this residue volume can be processed into biomass chips.
    J     ft3/CT                      Volume per chip tree in cubic feet.
    K     lb/ft3 CT                   Average green density of chip trees in pounds per cubic foot.
    L     CT hardwood fraction        A number between 0 and 1 representing the volume of hardwood chip trees to be
                                      removed, expressed as a fraction of the volume per chip tree from column J.
   M      ST/ac                      Number of small trees per acre to be removed. A small tree has a volume  80 cubic feet.
                                     This is used by FRCS as a criterion for determining whether the tree is small enough to
                                     be processed by a harvester.
   N      ST residue fraction        A number between 0 and 1 representing the volume of residues that could potentially be
                                     collected from each small tree, expressed as a fraction of the small tree’s total volume.
                                     FRCS assumes that 80% of this residue volume can be processed into biomass chips.
   O      ft3/ST                     Volume per small tree in cubic feet.
   P      lb/ft3 ST                  Average green density of small trees in pounds per cubic foot.
   Q      ST hardwood fraction       A number between 0 and 1 representing the volume of hardwood small trees to be
                                     removed, expressed as a fraction of the volume per small tree from column O.
   R      LT/ac                      Number of large trees per acre to be removed. A large tree has a volume > 80 cubic feet.
                                     This value is used by FRCS as a criterion for determining whether the tree is too large to
                                     be processed by a harvester. The FRCS rule is that harvesters can process all trees with
                                     volumes  80 cubic feet, and they can process up to 10 trees per acre with volumes
                                     greater than this but no more than 100 cubic feet. Harvesters are not used in the Billion-
                                     Ton variant of FRCS.
   S      LT residue fraction        A number between 0 and 1 representing the volume of residues in limbs and tops that
                                     could potentially be collected from each large tree, expressed as a fraction of the large
                                     tree’s total volume. FRCS assumes that 80% of this residue volume can be processed
                                     into biomass chips.
    T     ft3/LT                     Volume per large tree in cubic feet.
   U      lb/ft3 LT                  Average green density of large trees in pounds per cubic foot.
   V      LT hardwood fraction       A number between 0 and 1 representing the volume of hardwood large trees to be
                                     removed, expressed as a fraction of the volume per large tree from column T.

   W      Include move-in cost?      1 if move-in cost is to be calculated; 0 otherwise. Move-in cost should only be used when
                                     a single row of data can be used to represent an entire harvesting operation. If it is to be
                                     calculated, both move-in miles (column X) and treatment area (column E) must be
                                     specified.
   X      Move-in miles              One-way distance in miles from the previous logging operation to the current operation.
                                     Any value entered here is used only if the value in column W = 1.
   Y      Collect & chip residues?   1 if residues are to be collected and chipped at the landing; 0 otherwise. This should
                                     always be 1 if Billion-Ton processing has been enabled, since biomass production is the
                                     focus of the study.
    Z     Partial cut?               1 if the operation is to be a partial cut, 0 if it is to be a clearcut. This should always be 1
                                     for fuel-reduction thinnings.
   AA     Include loading costs?     1 if loading costs are to be calculated; 0 otherwise. This refers only to the cost of loading
                                     logs onto trucks. The cost of processing chips from chip trees and residues already
                                     incorporates the cost of loading the chips into a chip van or trailer.

Results Columns: The estimated costs and volumes calculated by FRCS will be written into the following columns on the
same row as the data from which the calculations were made.
   AB     All Costs, $/CCF           The sum of all felling, yarding/skidding, and chipping costs for all trees (CT, ST, and LT)
                                     divided by the total volume of logs produced as measured in hundreds of cubic feet
                                     (CCF).
   AC     All Costs, $/GT            The sum of all felling, yarding/skidding, and chipping costs for all trees (CT, ST, and LT)
                                     divided by the total volume of logs and chips produced as measured in green tons (GT).
   AD     All Costs, $/ac            The sum of all felling, yarding/skidding, and chipping costs for all trees (CT, ST, and LT)
                                     divided by the treatment area in acres.
   AE     CT Chips, GT/ac            The total weight of chips produced from all chip trees (biomass trees) harvested on the
                                     operation, divided by the treatment area in acres.
   AF     Residue Chips, GT/ac       The total weight of chips produced from the tops and limbs of all small trees (ST) and
                                     large trees (LT), divided by the treatment area in acres.
   AG     ST Logs, CCF/ac            The total volume of all logs produced from small trees, divided by the treatment area in
                                     acres. Log volume is measured in hundreds of cubic feet (CCF).
   AH     LT Logs, CCF/ac             The total volume of all logs produced from large trees, divided by the treatment area in
                                      acres. Log volume is measured in hundreds of cubic feet (CCF).
   AI     CT Chips, $/GT              The total cost of felling, yarding/skidding, and chipping all chip trees harvested on the
                                      operation, divided by the total weight of CT chips produced on the operation, in green
                                      tons.
   AJ     Residue Chips, $/GT         The total cost of chipping the limbs and tops of small trees and large trees brought to the
                                      landing in a whole-tree operation, divided by the total weight of residue chips produced on
                                      the operation, in green tons. Felling and yarding/skidding costs are not included because
                                      those costs have already been allocated to the production of ST logs and LT logs
                                      (columns AG and AH).




Loading Data
On the Interface page of FRCS, click the checkboard labeled Enable Batch Mode. This will present the batch-mode buttons.
Select the Load Batch Data button and follow the menu instructions to load your saved data file. If your data file is properly
formatted and named you will be ready to proceed to processing. Select the View Data button to visually inspect your data file
to ensure it is consistent with the column assignments described in the table above.


Processing the Batch Data
Once the data have been loaded and visually inspected to ensure consistency, select the Process Batch button in the Batch
Mode section of the Interface page. After the batch has been processed, click the Batch Report button to see whether any
errors were encountered during processing. If so, you should correct them before continuing. To correct the errors, return to the
Interface page, then click the View Data button to inspect the data worksheet for the error sources. The results cells (columns
AB-AJ) on the data page will provide messages that indicate which limits were exceeded. If there are no errors, you are ready
to view your results and copy the revised data worksheet to your own database or save it in an external file by clicking the Save
Results button on the Interface page.
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList             7/26/2012



           FRCS -- List last updated on   March 2, 2008
           List of variables generated with Insert, Name, Paste, Paste List
           AdjustedDieselPrice             =CostUpdates!$B$11
           AdjustedWageFB                  =WageIndex!$N$15
           AdjustedWageOther               =WageIndex!$O$15
           altered_machine_cost            =Data_management!$C$86
           Area                            =Inputs!$D$2
           AreaLimitedTurnVol              =CableYarding!$B$26
           AvgFBHourlyCost                 ='Fell-Bunch'!$M$6
           BackhaulHrs                     =MoveInCosts!$B$18
           Base_WageBen2000                =WageIndex!$O$10
           Base_WageBenFB2000              =WageIndex!$N$10
           BatchData                       =data!$A$2
           beginning_of_stand_table        =Report!$A$8
           BFperCF                         =Inputs!$B$39
           BoleWt                          =Inputs!$H$41
           BoleWtCT                        =Inputs!$C$41
           BoleWtST                        =Inputs!$F$41
           BoomReachF                      =Forwarding!$B$24
           BunchesPerTurn                  =Skidding!$R$25
           Bundler                         =Data_management!$F$85
           Bundler_OwnCost                 =MachineCosts!$T$51
           ButtDiam                        =Inputs!$H$34
           ButtDiamSLT                     =Inputs!$D$34
           ButtDiamST                      =Inputs!$F$34
           cable_yarding                   =Interface_page!$AQ$18:$AQ$21
           CableYardCTLCost                =Outputs!$M$38
           CableYardUnbunchedCost          =Outputs!$M$37
           CalcMoveIn                      =Inputs!$G$4
           CalcResidues                    =Inputs!$G$3
           CCJammerChangeCost              =CableYarding!$D$40
           CCLiveSLChangeCost              =CableYarding!$F$40
           CCRunSLChangeCost               =CableYarding!$E$40
           Chainsaw                        =Data_management!$F$86
           CHardwood                       =Inputs!$H$50
           CHardwoodALT                    =Inputs!$G$50
           CHardwoodCT                     =Inputs!$C$50
           CHardwoodLLT                    =Inputs!$E$50
           CHardwoodSLT                    =Inputs!$D$50
           CHardwoodST                     =Inputs!$F$50
           chip_hardwood_fract             =Data_management!$I$6
           chip_tree_hrdwd_fract           =Data_management!$C$82
           chip_wood_density               =Data_management!$J$6
           chippedbwlweight                =Data_management!$E$6
           chippedtreeavgdiameter          =Data_management!$G$6
           Chipper_big                     =Data_management!$F$87
           Chipper_OwnCost                 =MachineCosts!$R$51
           Chipper_small                   =Data_management!$F$88
           ChipperHourlyCost               =Chipping!$B$20
           ChipperSize                     =Inputs!$B$45
           chiptreeinfo                    =Data_management!$C$6:$D$6


                                            Page 254 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList                  7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           chiptreesperacre                =Data_management!$C$6
           chipvolpertree                  =Data_management!$D$6
           ChokerLogs                      =Skidding!$B$29
           ChokerTurnVol                   =Skidding!$B$30
           chp_hrdwd_fract                 =Data_management!$C$82
           chp_residue_fraction            =Data_management!$C$81
           chp_wd_density                  =Data_management!$C$80
           CostBundleResidue               ='Bundle&ForwardResidue'!$E$70
           CostChipBundledRes              =Chipping!$D$89
           CostChipCTL                     =Chipping!$E$75
           CostChipLooseRes                =Chipping!$D$82
           CostChipWT                      =Chipping!$F$61
           CostDDChipWT                    =Chipping!$D$68
           CostFellBunch                   ='Fell-Bunch'!$M$4
           CostForward                     =Forwarding!$M$4
           CostForwardResidueBundles       ='Bundle&ForwardResidue'!$D$77
           CostHarvest                     =Harvesters!$M$4
           CostHeliLoadCTL                 =HelicopterYarding!$F$100
           CostHeliLoadML                  =HelicopterYarding!$F$93
           CostHeliYardCTL                 =HelicopterYarding!$F$84
           CostHeliYardML                  =HelicopterYarding!$F$77
           CostLoad                        =Loading!$G$63
           CostLoadCTL                     =Loading!$E$70
           CostManFell                     ='Manual Felling (all trees)'!$M$4
           CostManFellCT2                  ='Manual Felling CT-WT, ALT-FLB'!$M$4
           CostManFellLLT                  ='Manual Felling LLT'!$M$4
           CostManFLB                      ='Manual Felling (all trees)'!$W$4
           CostManFLBALT2                  ='Manual Felling CT-WT, ALT-FLB'!$W$4
           CostManFLBLLT                   ='Manual Felling LLT'!$W$4
           CostManFLBLLT2                  ='Manual Felling ST-WT, LLT-FLB'!$W$4
           CostManWTFellST                 ='Manual Felling ST-WT, LLT-FLB'!$M$4
           CostProcess                     =Processing!$M$4
           costs                           =Data_management!$G$24:$G$25
           CostSkidBun                     =Skidding!$T$4
           CostSkidUB                      =Skidding!$L$4
           CostYardCCUB                    =CableYarding!$L$4
           CostYardCTL                     =CableYarding!$AB$4
           CostYardPCUB                    =CableYarding!$T$4
           CRemovalsFB_Harv                =Inputs!$B$48
           CSlopeFB_Harv                   =Inputs!$B$47
           CSlopeSkidForwLoadSize          =Inputs!$B$49
           CTLFellProcCost                 =Outputs!$M$33
           CTLLogsPerTree                  =Inputs!$F$37
           CTLLogsPerTreeCT                =Inputs!$C$37
           CTLLogVol                       =Inputs!$F$38
           CTLLogVolCT                     =Inputs!$C$38
           CTLLogWeight                    =Chipping!$B$18
           CTLLogWeightDry                 =Chipping!$B$19
           CTLTrailSpacing                 =Inputs!$B$25
           current_machine_cost            =Data_management!$C$90
           DBH                             =Inputs!$H$30


                                            Page 255 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList             7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           DBHALT                          =Inputs!$G$30
           DBHCT                           =Inputs!$C$30
           DBHLLT                          =Inputs!$E$30
           DBHSLT                          =Inputs!$D$30
           DBHST                           =Inputs!$F$30
           DeadDummy                       =Harvesters!$J$74
           default_cost_machine            =Data_management!$C$89
           Diesel_fuel_price               =Data_management!$E$26
           DistBetweenTrees                ='Fell-Bunch'!$B$14
           DistInA                         =Forwarding!$J$15
           DistInB                         =Forwarding!$J$35
           DistInC                         =Forwarding!$J$58
           DistIntermA                     =Forwarding!$J$13
           DistIntermB                     =Forwarding!$J$33
           DistIntermC                     =Forwarding!$J$56
           DistIntermD                     =Forwarding!$J$69
           DistOutA                        =Forwarding!$J$14
           DistOutB                        =Forwarding!$J$34
           DistOutC                        =Forwarding!$J$57
           DistPerMoveF                    =Forwarding!$B$20
           documentation_hidden            =Interface_page!$AL$1
           DownDummy                       =Harvesters!$J$73
           Elevation                       =Inputs!$B$6
           EnableBillionTon                =Interface_page!$AL$22
           end_of_print_page               =Report!$J$22
           end_of_stand_table              =Report!$J$9
           entry_table                     =Interface_page!$B$34
           ExchangeTrucks                  =Loading!$B$13
           ExchangeVans                    =Chipping!$B$8
           FallBuckWage                    =CostUpdates!$B$17
           FB_OwnCost                      =MachineCosts!$C$51
           FBMerchTreeHeight               ='Fell-Bunch'!$B$15
           Fbuncher_DriveToTree            =Data_management!$F$89
           Fbuncher_SelfLeveling           =Data_management!$F$90
           Fbuncher_SwingBoom              =Data_management!$F$91
           ForwardCost                     =Outputs!$M$36
           Forwarder_big                   =Data_management!$F$92
           Forwarder_OwnCost               =MachineCosts!$J$51
           Forwarder_small                 =Data_management!$F$93
           ForwarderHourlyCost             =Forwarding!$B$21
           FRCS_Variant                    ='States&Regions'!$F$25
           FRCS_Version                    =Interface_page!$K$2
           harvest_cost_per_acre           =Data_management!$C$33:$J$33
           Harvester_big                   =Data_management!$F$94
           Harvester_OwnCost               =MachineCosts!$F$51
           Harvester_small                 =Data_management!$F$95
           HarvesterHourlyCost             =Harvesters!$B$20
           HarvestTotalCPA                 =Data_management!$G$23
           HdwdCostPremium                 =Inputs!$B$26
           HdwdFraction                    =Inputs!$H$33
           HdwdFractionALT                 =Inputs!$G$33


                                            Page 256 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList             7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           HdwdFractionCT                  =Inputs!$C$33
           HdwdFractionLLT                 =Inputs!$E$33
           HdwdFractionSLT                 =Inputs!$D$33
           HdwdFractionST                  =Inputs!$F$33
           HeliCruiseSpeed                 =HelicopterYarding!$B$14
           HeliMoveInCostPerHr             =HelicopterYarding!$F$42
           HookArea                        =HelicopterYarding!$B$17
           include_loading_costs           =Interface_page!$AL$17
           InLimits1                       =Outputs!$B$131
           InLimits10                      =Outputs!$K$131
           InLimits2                       =Outputs!$C$131
           InLimits3                       =Outputs!$D$131
           InLimits4                       =Outputs!$E$131
           InLimits5                       =Outputs!$F$131
           InLimits6                       =Outputs!$G$131
           InLimits7                       =Outputs!$H$131
           InLimits8                       =Outputs!$I$131
           InLimits9                       =Outputs!$J$131
           IntMoveDistS                    =Skidding!$B$35
           large_hardwood_fract            =Data_management!$I$8
           Large_log_tre_res_fract         =Data_management!$F$8
           large_wood_density              =Data_management!$J$8
           largelogperacre                 =Data_management!$C$8
           largelogtreeinfo                =Data_management!$C$8:$D$8
           largetreeavgdbh                 =Data_management!$G$8
           largetreebolewt                 =Data_management!$E$8
           largetreevolpertree             =Data_management!$D$8
           LatDist                         =CableYarding!$B$22
           llt_density                     =Data_management!$E$80
           llt_hrdwd_fract                 =Data_management!$E$82
           llt_res_fract                   =Data_management!$E$81
           LoadCostALT                     =Outputs!$M$40
           LoadCostCTL                     =Outputs!$M$41
           Loader_big                      =Data_management!$F$96
           Loader_OwnCost                  =MachineCosts!$P$51
           Loader_small                    =Data_management!$F$97
           LoaderHourlyCost                =Loading!$B$18
           LoadFraction                    =Forwarding!$B$25
           LoadHrs                         =MoveInCosts!$B$11
           LoadHrsYarder                   =MoveInCosts!$B$12
           LoadVolA                        =Forwarding!$J$12
           LoadVolALT                      =Loading!$B$16
           LoadVolB                        =Forwarding!$J$32
           LoadVolC                        =Forwarding!$J$55
           LoadVolD                        =Forwarding!$J$68
           LoadVolSLT                      =Loading!$B$17
           LoadWeight                      =Inputs!$B$23
           LoadWeightChip                  =Inputs!$B$24
           LoadWeightDry                   =Chipping!$B$16
           LogLength                       =Inputs!$B$22
           LogsPerTree                     =Inputs!$H$35


                                             Page 257 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList                   7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           LogsPerTreeALT                  =Inputs!$G$35
           LogsPerTreeCT                   =Inputs!$C$35
           LogsPerTreeLLT                  =Inputs!$E$35
           LogsPerTreeSLT                  =Inputs!$D$35
           LogsPerTreeST                   =Inputs!$F$35
           LogsPerTurnS                    =Skidding!$B$20
           LogVol                          =Inputs!$H$36
           LogVolALT                       =Inputs!$G$36
           LogVolST                        =Inputs!$F$36
           LogWt                           =HelicopterYarding!$B$20
           LogWtST                         =HelicopterYarding!$E$20
           LowboyCost                      =MoveInCosts!$B$19
           machine_cost_list_result        =Data_management!$C$85
           machine_costs_list              =Data_management!$E$85:$E$106
           ManFellCostALT                  =Outputs!$M$29
           ManFellCostAT                   =Outputs!$M$28
           ManFellCostCT                   =Outputs!$M$32
           ManFellCostLLT                  =Outputs!$M$30
           ManFellCostSLT                  =Outputs!$M$31
           ManualMachineSize               =Inputs!$H$43
           ManualMachineSizeALT            =Inputs!$G$43
           MaxAYD_CableManualWT            =Outputs!$G$128
           MaxLTVol                        =Inputs!$B$19
           MaxSTVol                        =Inputs!$B$20
           MechFellCostCT_SLT              =Outputs!$M$27
           MechMachineSize                 =Inputs!$F$44
           MerchHeightFLB                  ='Manual Felling (all trees)'!$B$15
           MerchHt_WT_ALT                  ='Manual Felling CT-WT, ALT-FLB'!$B$32
           MerchHt_WT_CT                   ='Manual Felling CT-WT, ALT-FLB'!$B$16
           MerchHt_WT_ST                   ='Manual Felling ST-WT, LLT-FLB'!$B$30
           MerchHtLLT                      ='Manual Felling LLT'!$B$15
           MoistureContent                 =Inputs!$B$21
           move_in                         =Data_management!$E$24
           move_in_1                       =Data_management!$F$24
           move_in_dist                    =Interface_page!$AL$15
           MoveInDist                      =Inputs!$D$3
           MoveInLabor                     =MoveInCosts!$B$10
           MovesA                          =Forwarding!$J$16
           MovesB                          =Forwarding!$J$36
           NonSelfLevelCabDummy            =Inputs!$B$46
           OtherWage                       =CostUpdates!$C$17
           Paint                           =Forwarding!$J$17
           partial_cut                     =Data_management!$E$22
           partial_cut_1                   =Data_management!$F$22
           partial_cut1                    =Data_management!$F$22
           PartialCut                      =Inputs!$G$2
           PCLiveStandSLChangeCost         =CableYarding!$F$46
           PCRunSLChangeCost               =CableYarding!$D$46
           PMH_Bundler                     =MachineCosts!$T$48
           PMH_Chainsaw                    =MachineCosts!$B$48
           PMH_ChipperB                    =MachineCosts!$S$48


                                            Page 258 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList                 7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           PMH_ChipperS                    =MachineCosts!$R$48
           PMH_DriveToTree                 =MachineCosts!$C$48
           PMH_ForwarderB                  =MachineCosts!$K$48
           PMH_ForwarderS                  =MachineCosts!$J$48
           PMH_HarvB                       =MachineCosts!$G$48
           PMH_HarvS                       =MachineCosts!$F$48
           PMH_LoaderB                     =MachineCosts!$Q$48
           PMH_LoaderS                     =MachineCosts!$P$48
           PMH_ProcessorB                  =MachineCosts!$O$48
           PMH_ProcessorS                  =MachineCosts!$N$48
           PMH_SelfLevel                   =MachineCosts!$E$48
           PMH_SkidderB                    =MachineCosts!$I$48
           PMH_SkidderS                    =MachineCosts!$H$48
           PMH_SwingBoom                   =MachineCosts!$D$48
           PMH_YarderI                     =MachineCosts!$M$48
           PMH_YarderS                     =MachineCosts!$L$48
           Print_Area                      =VariableList!$A$1:$B$387
           Print_Titles                    =VariableList!$2:$2
           Processor_big                   =Data_management!$F$98
           Processor_OwnCost               =MachineCosts!$N$51
           Processor_small                 =Data_management!$F$99
           ProcessorHourlyCost             =Processing!$B$11
           project_elevation               =Interface_page!$D$20
           Project_Slope                   =Interface_page!$D$19
           RegionalGroups                  ='States&Regions'!$F$20:$J$22
           RegionFromState                 =WageIndex!$N$14
           RegionNames                     ='States&Regions'!$B$2:$G$2
           RegionsSupported                ='States&Regions'!$F$28:$H$28
           Relevance_CYCCU                 =RelevanceWeightInputs!$D$163:$K$170
           Relevance_CYCTL                 =RelevanceWeightInputs!$D$189:$K$190
           Relevance_CYPCU                 =RelevanceWeightInputs!$D$172:$K$187
           Relevance_FBunch                =RelevanceWeightInputs!$D$67:$K$89
           Relevance_FellingOnly           =RelevanceWeightInputs!$D$11:$K$17
           Relevance_FellLimbBuck          =RelevanceWeightInputs!$D$19:$K$25
           Relevance_FellLLT               =RelevanceWeightInputs!$D$27:$K$33
           Relevance_FLBALT                =RelevanceWeightInputs!$D$59:$K$65
           Relevance_FLBLLT                =RelevanceWeightInputs!$D$35:$K$41
           Relevance_Forwarding            =RelevanceWeightInputs!$D$153:$K$161
           Relevance_Harvesters            =RelevanceWeightInputs!$D$91:$K$111
           Relevance_LoadingCTLLogs        =RelevanceWeightInputs!$B$217:$B$219
           Relevance_LoadingLongLogs       =RelevanceWeightInputs!$B$211:$B$215
           Relevance_Processing            =RelevanceWeightInputs!$D$202:$K$209
           Relevance_SCGB                  =RelevanceWeightInputs!$D$133:$K$151
           Relevance_SCGU                  =RelevanceWeightInputs!$D$113:$K$131
           Relevance_WT_CT                 =RelevanceWeightInputs!$D$51:$K$57
           Relevance_WT_ST                 =RelevanceWeightInputs!$D$43:$K$49
           Removals                        =Inputs!$H$11
           RemovalsALT                     =Inputs!$G$11
           RemovalsCT                      =Inputs!$C$11
           RemovalsLLT                     =Inputs!$E$11
           RemovalsSLT                     =Inputs!$D$11


                                            Page 259 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList             7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           RemovalsST                      =Inputs!$F$11
           res_fract_chip                  =Data_management!$F$6
           Residue                         =Inputs!$H$42
           residue_collect                 =Data_management!$E$25
           residue_collect_1               =Data_management!$F$25
           ResidueALT                      =Inputs!$G$42
           ResidueCT                       =Inputs!$C$42
           ResidueLLT                      =Inputs!$E$42
           ResidueRecovFracCTL             =Inputs!$B$28
           ResidueRecovFracWT              =Inputs!$B$27
           ResidueSLT                      =Inputs!$D$42
           ResidueST                       =Inputs!$F$42
           result_ccf                      =Data_management!$G$24
           result_gt                       =Data_management!$G$25
           result_match                    =Data_management!$C$88
           ResWtRecoverCT                  =Outputs!$M$8
           ResWtRecoverSLT                 =Outputs!$M$10
           SelectedRegion                  =CostUpdates!$B$13
           SelectedState                   =Data_management!$G$15
           SelectedStateName               =WageIndex!$N$12
           show_cost_list                  =Data_management!$F$85:$F$103
           show_cost_list_A                =Data_management!$F$85:$F$103
           SkidBunchedCost                 =Outputs!$M$34
           Skidder_big                     =Data_management!$F$100
           Skidder_OwnCost                 =MachineCosts!$H$51
           Skidder_small                   =Data_management!$F$101
           SkidderHourlyCost               =Skidding!$B$22
           SkidderHourlyCostBig            =Skidding!$B$24
           SkidderHourlyCostSmall          =Skidding!$B$23
           SkidUnbunchedCost               =Outputs!$M$35
           Slope                           =Inputs!$B$3
           slt_density                     =Data_management!$D$80
           slt_hrdwd_fract                 =Data_management!$D$82
           slt_res_fract                   =Data_management!$D$81
           small_hardwood_fract            =Data_management!$I$7
           small_log_res_fract             =Data_management!$F$7
           small_wood_density              =Data_management!$J$7
           smalllognumber                  =Data_management!$C$7
           smalllogtreeinfo                =Data_management!$C$7:$D$7
           smalltreeavgdiameter            =Data_management!$G$7
           smalltreeboleweight             =Data_management!$E$7
           smalltreevolpertree             =Data_management!$D$7
           SpeedBack                       =MoveInCosts!$B$9
           SpeedLoaded                     =MoveInCosts!$B$8
           StateAbbreviations              ='States&Regions'!$B$20:$D$69
           StateAndIndex                   ='States&Regions'!$C$20:$D$69
           StateNames                      =WageIndex!$B$7:$B$56
           StatesByRegion                  ='States&Regions'!$B$2:$G$16
           stharvestoverride               =Interface_page!$AM$14
           system_list                     =Interface_page!$AQ$14:$AQ$23
           system_type                     =Data_management!$G$18


                                            Page 260 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList                   7/26/2012


           List of variables generated with Insert, Name, Paste, Paste List
           system_type_selected            =Interface_page!$AU$21
           top_of_settings                 =Report!$A$10
           TravLoadedHrs                   =MoveInCosts!$B$17
           treatment_area                  =Interface_page!$AL$14
           TreeHeight                      =Inputs!$H$31
           TreeHeightLLT                   =Inputs!$E$31
           TreeHeightST                    =Inputs!$F$31
           TreesPerBunch                   =Skidding!$B$40
           TreesPerTurnS                   =Skidding!$B$21
           TreeVol                         =Inputs!$H$12
           TreeVolALT                      =Inputs!$G$12
           TreeVolCT                       =Inputs!$C$12
           TreeVolLLT                      =Inputs!$E$12
           TreeVolSLT                      =Inputs!$D$12
           TreeVolST                       =Inputs!$F$12
           TreeWeightDry                   =Chipping!$B$17
           TurnArea                        =CableYarding!$B$23
           TurnVol                         =Skidding!$B$19
           use_batch_mode                  =Interface_page!$AL$21
           UserChipFraction                =Inputs!$B$6
           VolPerAcre                      =Inputs!$H$40
           VolPerAcreALT                   =Inputs!$G$40
           VolPerAcreCT                    =Inputs!$C$40
           VolPerAcreLLT                   =Inputs!$E$40
           VolPerAcreSLT                   =Inputs!$D$40
           VolPerAcreST                    =Inputs!$F$40
           WageAndBenRate                  =MachineCosts!$C$2
           WageAndBenRateF                 =MachineCosts!$B$2
           WalkDist_WT_ALT                 ='Manual Felling CT-WT, ALT-FLB'!$B$31
           WalkDist_WT_CT                  ='Manual Felling CT-WT, ALT-FLB'!$B$15
           WalkDist_WT_ST                  ='Manual Felling ST-WT, LLT-FLB'!$B$29
           WalkDistFBLLT                   ='Manual Felling LLT'!$B$14
           WalkDistFLB                     ='Manual Felling (all trees)'!$B$14
           WoodDensity                     =Inputs!$H$32
           WoodDensityALT                  =Inputs!$G$32
           WoodDensityCT                   =Inputs!$C$32
           WoodDensityLLT                  =Inputs!$E$32
           WoodDensitySLT                  =Inputs!$D$32
           WoodDensityST                   =Inputs!$F$32
           WtInHook_Area                   =HelicopterYarding!$B$18
           WTProcCost                      =Outputs!$M$39
           WtSTInHook_Area                 =HelicopterYarding!$E$18
           Yard_dist                       =Interface_page!$D$18
           YardDist                        =Inputs!$B$2
           Yarder_intermediate             =Data_management!$F$102
           Yarder_OwnCost                  =MachineCosts!$L$51
           Yarder_small                    =Data_management!$F$103
           YarderCapacity                  =CableYarding!$B$28
           YarderCapacityST                =CableYarding!$B$29
           YarderCTLLogVol                 =CableYarding!$B$15
           YarderHourlyCost                =CableYarding!$B$27


                                            Page 261 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList                         7/26/2012




                 =CostUpdates                 Column D is Left(B); useful for sorting.
                 =WageIndex                  To sort by worksheet, sort on D, then A.
                 =WageIndex
                 =Data_management
                 =Inputs
                 =CableYarding
                 ='Fell-Bunch'
                 =MoveInCosts
                 =WageIndex
                 =WageIndex
                 =data
                 =Report
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Forwarding
                 =Skidding
                 =Data_management
                 =MachineCosts
                 =Inputs
                 =Inputs
                 =Inputs
                 =Interface_page
                 =Outputs
                 =Outputs
                 =Inputs
                 =Inputs
                 =CableYarding
                 =CableYarding
                 =CableYarding
                 =Data_management
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Chipping
                 =Inputs
                 =Data_management


                                            Page 262 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Data_management
                 =Data_management
                 =Skidding
                 =Skidding
                 =Data_management
                 =Data_management
                 =Data_management
                 ='Bundle&ForwardResidue'
                 =Chipping
                 =Chipping
                 =Chipping
                 =Chipping
                 =Chipping
                 ='Fell-Bunch'
                 =Forwarding
                 ='Bundle&ForwardResidue'
                 =Harvesters
                 =HelicopterYarding
                 =HelicopterYarding
                 =HelicopterYarding
                 =HelicopterYarding
                 =Loading
                 =Loading
                 ='Manual Felling (all trees)'
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling LLT'
                 ='Manual Felling (all trees)'
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling LLT'
                 ='Manual Felling ST-WT, LLT-FLB'
                 ='Manual Felling ST-WT, LLT-FLB'
                 =Processing
                 =Data_management
                 =Skidding
                 =Skidding
                 =CableYarding
                 =CableYarding
                 =CableYarding
                 =Inputs
                 =Inputs
                 =Inputs
                 =Outputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Chipping
                 =Chipping
                 =Inputs
                 =Data_management
                 =Inputs


                                            Page 263 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Harvesters
                 =Data_management
                 =Data_management
                 ='Fell-Bunch'
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Interface_page
                 =Harvesters
                 =Inputs
                 =Interface_page
                 =Report
                 =Report
                 =Interface_page
                 =Loading
                 =Chipping
                 =CostUpdates
                 =MachineCosts
                 ='Fell-Bunch'
                 =Data_management
                 =Data_management
                 =Data_management
                 =Outputs
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Forwarding
                 ='States&Regions'
                 =Interface_page
                 =Data_management
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Harvesters
                 =Data_management
                 =Inputs
                 =Inputs
                 =Inputs


                                            Page 264 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =HelicopterYarding
                 =HelicopterYarding
                 =HelicopterYarding
                 =Interface_page
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Skidding
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =CableYarding
                 =Data_management
                 =Data_management
                 =Data_management
                 =Outputs
                 =Outputs
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Loading
                 =Forwarding
                 =MoveInCosts
                 =MoveInCosts
                 =Forwarding
                 =Loading
                 =Forwarding
                 =Forwarding
                 =Forwarding
                 =Loading
                 =Inputs
                 =Inputs
                 =Chipping
                 =Inputs
                 =Inputs


                                            Page 265 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Skidding
                 =Inputs
                 =Inputs
                 =Inputs
                 =HelicopterYarding
                 =HelicopterYarding
                 =MoveInCosts
                 =Data_management
                 =Data_management
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Outputs
                 =Inputs
                 =Inputs
                 =Outputs
                 =Inputs
                 =Inputs
                 =Outputs
                 =Inputs
                 ='Manual Felling (all trees)'
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling ST-WT, LLT-FLB'
                 ='Manual Felling LLT'
                 =Inputs
                 =Data_management
                 =Data_management
                 =Interface_page
                 =Inputs
                 =MoveInCosts
                 =Forwarding
                 =Forwarding
                 =Inputs
                 =CostUpdates
                 =Forwarding
                 =Data_management
                 =Data_management
                 =Data_management
                 =Inputs
                 =CableYarding
                 =CableYarding
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts


                                            Page 266 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =MachineCosts
                 =VariableList
                 =VariableList
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Processing
                 =Interface_page
                 =Interface_page
                 ='States&Regions'
                 =WageIndex
                 ='States&Regions'
                 ='States&Regions'
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =RelevanceWeightInputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs


                                            Page 267 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Inputs
                 =Data_management
                 =Inputs
                 =Data_management
                 =Data_management
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Data_management
                 =Data_management
                 =Data_management
                 =Outputs
                 =Outputs
                 =CostUpdates
                 =Data_management
                 =WageIndex
                 =Data_management
                 =Data_management
                 =Outputs
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =Skidding
                 =Skidding
                 =Skidding
                 =Outputs
                 =Inputs
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =Data_management
                 =MoveInCosts
                 =MoveInCosts
                 ='States&Regions'
                 ='States&Regions'
                 =WageIndex
                 ='States&Regions'
                 =Interface_page
                 =Interface_page
                 =Data_management


                                            Page 268 of 269
9b2f670d-c9aa-4398-9bed-eb02939da286.xls, Worksheet: VariableList   7/26/2012



                 =Interface_page
                 =Report
                 =MoveInCosts
                 =Interface_page
                 =Inputs
                 =Inputs
                 =Inputs
                 =Skidding
                 =Skidding
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Chipping
                 =CableYarding
                 =Skidding
                 =Interface_page
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =MachineCosts
                 =MachineCosts
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling CT-WT, ALT-FLB'
                 ='Manual Felling ST-WT, LLT-FLB'
                 ='Manual Felling LLT'
                 ='Manual Felling (all trees)'
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =Inputs
                 =HelicopterYarding
                 =Outputs
                 =HelicopterYarding
                 =Interface_page
                 =Inputs
                 =Data_management
                 =MachineCosts
                 =Data_management
                 =CableYarding
                 =CableYarding
                 =CableYarding
                 =CableYarding


                                            Page 269 of 269

				
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