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CEES Computer Engineering in Electrical Systems

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CEES Computer Engineering in Electrical Systems Powered By Docstoc
					                        Antoni Cieśla, Zbigniew Hanzelka, Jacek Nalepa, Tadeusz Orzechowski, Jan Rusek

                     Master-degree specialization in Computer
                    Engineering in Electrical Systems, carried in
                             English at the AGH-UST
International Conference on Engineering Education ICEE 2005,
The Silesian University of Technology, Gliwice, Poland, July 25 - 29, 2005.
http://icee2005.polsl.pl


The AGH University of Science and Technology (AGH-UST), Krakow, Poland, Faculty of Electrical Engineering, Automatics, Computer Science and
Electronics (EAIE), launches the master-degree studies in the area of Electrical Engineering, carried entirely in the English language. For this end a new, as if
inter-modular, specialization has been proposed, called Computer Engineering in Electrical Systems (CEES). The specialization is a new one, though very
close to one of the specializations carried in the Polish language, within the "modulus C" of the unified, master-degree studies. The duration of the studies
within the specialization is four semesters, whereby the fourth semester is devoted for preparation of the diploma work.

The project starts in the autumn-to-winter semester of the academic year 2005-to-2006. The project has been successfully put into the whole acceptance
procedures, both at the EAIE Faculty and AGH-UST senate levels.

After gathering of all the indispensable acceptances, it was possible to arrange a meeting with potential candidates for the studies within the proposed
specialization, to be carried in the English language. The meeting (held on February 25 th, 2005) has gathered about 18 students. First they have been exposed
to short presentation of objectives, courses and regulations. Thereafter the questions of the audience have been answered by prof. Antoni Cieśla (lecturer and
pro-dean catering for Electrical Engineering), prof. Zbigniew Hanzelka (lecturer) and prof. Jan Rusek (lecturer).
From the atmosphere of the one and half hour lasting meeting, it can justifiably be concluded that about 12 students will volunteer for the proposed
specialization.

Those involved in preparation of the project are deeply convinced, that the existence of a group with English as an exclusive language of lectures and
tutorials will prepare the EAIE Faculty to meet the growing challenge of being able to propose studies not only for the Polish but also for the foreign
candidates.
At the same time, carrying lectures and tutorials in the English language will promote the knowledge of the technical vocabulary among the whole academic
community of the AGH-UST.
 ______________________________

An article would present some details of the new venture, including objectives, methods and regulations, all prepared for the new specialization to be carried
in the English language.
                                 CEES
          Computer Engineering in Electrical Systems
                           •   Objectives and methods:

•   The student will be exposed to advanced knowledge of computer science
    within softwer and hardware, to the knowledge of modern methods of
    control, electrical circuits analysis and modelling, signal aquisition and
    processing, etc.

•   The student will also gain the knowledge about basic electric and electronic
    equipment (machines,         drives, power electronics) as well as about
    technological processes such as thermal processes, generation, transmission
    and distribution of electrical energy, control systems, etc.

•   Based on the above targets, the graduate of the CEES specuialization will be
    an engineer of broad knowledge of proctical informatics, which he will be
    able to apply to control the know-to-him objects, systems and electrical
    processes.
                                          CEES
           Computer Engineering in Electrical Systems
                     •    SEMESTER 7: Five obligatory courses plus one elective
No   Course                                   Lect   Labora-   Conservatory/   Credit    Rema-
                                              -ure   tory       Comp.Lab./     points/   rks
                                                               Project.   H
                                                H       H                          Egz
1    Electrical machines and micro-            30      30                         5E
     machines (prof. J. Rusek)
2    Advanced circuit theory                   30      30                         5E
     (prof. M. Ogorzałek)
3    Power electronics (prof. M. Tondos)       30      30                          5
4    Measurement of electrical and non-        30      30                         5E
     electrical quantities (prof.T. Sidor )
5    Electric Power Systems                    30      30                          5
     (dr Andrzej Jackowicz-Korczyński)
6    Signal theory (prof. T. Zieliński)        30      30                          5     Elective

7    Computer-aided analysis of electro-       30      30                          5     Elective
     nic systems (dr Zbigniew Galias)
                                               180     180
                                          CEES
            Computer Engineering in Electrical Systems
                   •    SEMESTER 8: Four obligatory courses plus two electives
No   Course                               Lect-   Labora-   Conservatory/   Credit        Rema-
                                          ure     tory       Comp.Lab./     points/ Egz   rks
                                            H         H      Project.   H
8    Microcomputer systems in industry     30       30                           5E
     (mgr P. Kwasnowski)
9    Engineering programming in Visual     30                     30             5
     C++. (prof. Jan Rusek)
10   Advanced power electronics            30       30                           5E
     converters (KANiUP)
11   Signal processing algorithms          30       30                           5E
     (prof. T. Zieliński)
12   Electric drives (KANiUP)              30       30                           5        Elective

13   Statistical methods in measurement    30       30                           5        Elective
     data analysis (prof. J. Gajda)
14   Electric power quality                30       30                           5        Elective
     (prof. Z. Hanzelka)
15   Numerical methods of electrical       30        30                          5        Elective
     engineering (KANiUP)
                                           180      150           30
                                          CEES
                          Computer Engineering in Electrical Systems
                 •    SEMESTER 9: Three obligatory courses plus three electives
No   Course                                Lect-   Labora-   Conservatory/   Credit        Rema-
                                           ure     tory       Comp.Lab./     points/ Egz   rks
                                             H         H     Project.   H
16   Control system opimization             30       30                           5E
     (KANiUP)
17   Computer methods of identification     30       30                           5E
     (prof. J. Gajda)
18   Automation of industrial processes     30                    30              5E
     (mgr P. Kwasnowski)
19   Numerical modeling of electrical       30       30                           5        Elective
     power systems (dr J. Furgał)

20   Computer Analysis of Electronic        30                    30              5        Elective
     Measuring Systems (prof. T. Sidor)
21   Electrothermy (dr Z. Waradzyn)         30       30                           5        Elective


22   Building automation systems            30       30                           5        Elective
     (mgr P. Kwasnowski)
23   Nonlinear systems                      30        30                          5        Elective
     (prof. M. Ogorzałek)
24   Programmable industrial controllers    30                    30                       Elective
     (mgr P. Kwasnowski)
                                            180      120          60
                        CEESElectrical Systems
                            CEES
            Computer Engineering in
          Computer Engineering in Electrical Systems
               •   SEMESTER 10: Problem oriented laboratory plus diploma work

No   Course                            Lect-   Labora-    Conservatory/   Credit        Rema-
                                       ure     tory        Comp.Lab./     points/ Egz   rks
                                         H         H       Project.   H
25   Problem oriented laboratory*       15


   * Five momothematic lectures (3h each) elected by the students from those proposed by the
lecturers of the EAIE Faculty (based on the number of votes).
                                             CEES
            Computer Engineering in Electrical Systems
•   AGH University of Science and Technology (AGH-UST),
•   Faculty of Electrical Engineering, Automatics, Computer Science and Electronics (EAIE),
•   Al. Mickiewicza 30,
•   30-059 Krakow, Poland
•
  • Regulations for the foreign language specialization
    of Computer Engineering in Electrical Systems (CEES)
• General information
•
• The studies in the English language within the specialization of CEES last 4
   semesters and are carried:
• 1. Within the unified studies (SJ) of Electrical Engineering, in successive 7th
   ,8th, 9th and 10th semesters.
• 2. Within the master-degree complementary studies (SUM), in successive 1st ,
   2nd , 3rd and 4th semesters.
•
• Remark: the CEES specialization within the SJ and SUM studies are carried
   along the same plane and program of the studies, whereby semester 7th within
   the SJ studies coincide with the semester 1st of the SUM studies.
                                     CEES
            Computer Engineering in Electrical Systems
•   3. For the CEES specialization, carried within the SJ studies mentioned in
    paragraph 1, the following candidates can be qualified:
•
a. Polish nationals who have completed the engineering (i.e. bachelor-degree) studies of
   Electrical Engineering and are in possession of the diploma testifying completion of
   these studies,
b. Polish nationals who have completed the engineering (i.e. bachelor-degree) studies of
   other specialization or line of studies, close to Electrical Engineering, what can be
   concluded from the diploma and relevant certificate e.g. in the form of diploma
   supplement (see also paragraph 8).
c. students studding Electrical Engineering, at the EAIE Faculty of the AGH University of
   Science and Technology, after completion of the 6th semester,
d. students of other lines of studies, carried in the form of unified studies SJ at the EAIE
   Faculty of AGH-UST (see also paragraph 8),
e. foreigners, being in possession of appropriate diploma of completion of the 1st-degree
   (bachelor-degree) studies of Electrical Engineering,
• foreigners, who are studying Electrical Engineering and wish to continue their studies at
   the AGH-UST, and have thus far gathered at least 180 ETCS points of basic and
   specializing courses defined in the educational standards for Electrical Engineering.
                                  CEES
          Computer Engineering in Electrical Systems
•   Language requirements
•
•   4. The candidate for the studies within the CEES specialization should be in
    possession of advanced command of the English language, both in writing and
    speaking, so as to be able to understand lectures, actively take part in tutorial,
    laboratory and seminar exercises, prepare writing reports of exercises, pass
    writing exams as well as answer questions both during exercises and
    examination procedure.
•     The application form of the candidate should be attached by the declaration
    of the language knowledge of the following form:
•   I declare that my command of the English language fulfills the demands
    defined in the Regulations for the CEES specialization.
•   All the consequences of not fulfilling the above criteria, up to excluding from
    the CEES specialization, fall exclusively on the student.
•
                                  CEES
          Computer Engineering in Electrical Systems

•   Particular requirements
•
•   5. Application form for the specialization of CEES should be handed in to the
    pro-dean catering for Electrical Engineering, not later than on 15th May of
    each calendar year.
•   6. Students of Electrical Engineering and other lines of studies carried as
    unified studies at the EAIE Faculty of the AGH-UST, hand in the application
    form during the 6th semester, not later than on 15th May of each calendar year.
•   7. The decision about qualification of the student is taken by the pro-dean
    catering for Electrical Engineering, not later than on 15th June of each calendar
    year.
•   8. With respect to the candidates mentioned in paragraphs 3b and 3d, the pro-
    dean catering for Electrical Engineering may find some program differences
    and may specify the making up conditions.
                                 CEES
          Computer Engineering in Electrical Systems

•   Diploma work, completion of studies
•
•   9. The diploma work should be prepared in the English language. Presentation
    of the work, its defense and diploma examination are carried in the English
    language.
•
•   Completion of the CEES specialization is certified by the diploma of receiving
    the title (grade) of master engineer in Electrical Engineering. The fact of
    studying in the English language as well as the subject scope of completed
    studies remains notified in the diploma supplement.
                                 CEES
          Computer Engineering in Electrical Systems

•   Finansing
•
•   10. The level of gratifying the employees for teaching in the English language
    is determined by the dean in compliance with the rules issued by the ministry
    of National Education.
•
•   11. The costs of attending the courses resulting from program differences are
    covered by the student. The level of the payment contributed by the student is
    defined by the pro-dean catering for Electrical Engineering, in compliance
    with the quotas established by the rector.
                                  CEES
          Computer Engineering in Electrical Systems

•   Others
•
•   12. In particular cases, the decision about qualifying for the CEES
    specialization is taken by the pro-dean catering for Electrical Engineering or
    by the dean, in an individual manner.
•
                                                      CEES
                     Computer Engineering in Electrical Systems
                                   kierunek ELEKTROTECHNIKA                                                           tabela 1
                                             kształcenie specjalistyczne
                       ZESTAWIENIE SPECJALNOŚCI I JEDNOSTEK DYPLOMUJĄCYCH

                                                        SPECJALNOŚĆ                       JEDNOSTKA DYPLOMUJĄCA
               MODUŁ
                                       symbol              nazwa specjalności
                                                                                          Zakład Elektroenergetyki
A
                                       Aa
                                                        Elektroenergetyka
WYTWARZANIE, PRZESYŁ                                           (EE)

    i ROZDZIAŁ ENERGII                 Ab                                                 Zakład Elektroenergetyki
       ELEKTRYCZNEJ                                  Energetyka przemysłowa               Katedra Maszyn Elektrycznych
                                                               (EP)
                                                                                          Katedra Autom. Napędu i Urz. Przemysł.
B
                                       Ba
                                                        Energoelektronika                 Zakład Metrologii
PRZETWARZANIE ENERGII                                        (ENG)

        ELEKTRYCZNEJ                   Bb                                                 Katedra Autom. Napędu i Urz. Przemysł.
                                       Automatyka napędu i urządzeń technologicznych      Katedra Maszyn Elektrycznych
                                                        (ANiUT)
                                                                                          Zakład Metrologii
C
                                       Ca
                                                     Automatyka i metrologia              Katedra Autom. Napędu i Urz. Przemysł
    UKŁADY STEROWANIA                                        (AM)

    i SYSTEMY POMIAROWE                Cb                                                 Katedra Autom. Napędu i Urz. Przemysł.
                                                Inżynieria komputerowa w przemyśle        Zakład Metrologii
                                                               (IK)
                                        IA                                                  Katedra   Autom. Napędu i Urz. Przem.
              Specjalność                                                                   Katedra   Maszyn Elektrycznych
        INTERMODUŁOWA                       Computer Engineering in Electrical Systems      Katedra   Metrologii,
     Zajęcia prowadzone w języku
            ANGIELSKIM
                                                           (CEES)                           Katedra   Elektroenergetyki,
                                                                                            Katedra   Elektrotechniki
               CEES
Computer Engineering in Electrical Systems
      Electrical Machines and Micromachines

        Single phase and three phase transformers: equivalent circuits, steady-state equations, phasor diagrams.
         Three phase synchronous machines: Park’s transform and equivalent circuits, steady-state equations, phasor
    diagrams, synchronization, reactive power control.
        Induction machines: squirrel cage and slip ring rotor, torque-speed characteristics, starting up, speed control,
        Two-phase servo induction motors.
         Single-phase capacitor motors.
             Commutator machines: shunt-connected DC machines, series-connected DC machines, ac-commutator
    machines, dc-brushless micromachines.
           Stepper motors: permanent-magnet, variable-reluctance and hybrid steppers, unipolar and bipolar supply,
    damping of commutation overvoltages, full-step and half-step operation,
        DC and AC tachometers.
        Resolvers.
        Selsyns, including transformer link.
               Static converters for driving systems: power electronics elements, controlled rectifiers, inverters,
    cycloconverters.
•   Laboratory:
        Calculations of transformers’ parameters and characteristics.
        Calculations of torque, currents power and reactive power of synchronous machines.
        Calculations of torque and currents of induction machines.
        Calculations of torque and currents of dc and ac commutator machines.
        Engineering programming in Visual C++
       Visual C++ environment: AppWizard, AppStudio, ClassWizard. Creating applications.
       Functions, strings, pointers, references, tables, function name overloading.
       Memory allocation: operators new and delete.
       Classes: member variables and functions. Constructor and destructor.
       Loops: for, do and do-while. Condition instruction if and the switch.
       Inheritance. Public, private and protected variables. Directive #include.
       Logical and bit-wise “and” and “or’. Defining single-argument operators.
       Creating SDI applications: classes CmyApp, CMainFrame, CmyDoc and CmyView.
       Adding own classes and communication between various classes.
       Function OnDraw. Drawing rectangles ellipses and inscriptions. Color adjustment.
       Initializing of classes in OnInitialUpdate.
       Buttons and Create function. Creating bitmap resources and covering buttons.
       Use of class CPtrArray for storing data in CmyDoc.
       Use of CFileDialog and CFile to read from or write to external files.
       Adding and editing icons for Toolbar. Writing to title bar.
       Serving COMMAND and UPDATE_COMAND_UI commands.
       Massage maps. Class CArchive and serialization.
       Serving keyboard and mouse. Functions Capture, ReleaseCapture and ClipCursor.
       Printing and PrintPreview. Print engine. Logical and device coordinates.
       Resizing, mapping and translating window’s and viewport’s origins.
       Device Context, compatible DeviceContext and compatible Bitmap.
       Use of functions BitBlt and StretchBlt.
       Adding new menu and new menu items. Serving notification messages.
       Dialog boxes, Tab controls. Selecting graphical objects .
       Passing text and bitmaps to clipboard. Reading text or bitmap form clipboard.
       Registering with Windows user’s clipboard format.
       Storing graphics in enhanced metafile format.
       Application SDI with two views in split window: drawing pane and edit pane.

				
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