Projects / Programmes source: ARIS

Control of Electromechanical Systems

Research activity

Code Science Field Subfield
2.12.00  Engineering sciences and technologies  Electric devices   
2.03.00  Engineering sciences and technologies  Energy engineering   

Code Science Field
T190  Technological sciences  Electrical engineering 
T125  Technological sciences  Automation, robotics, control engineering 
P200  Natural sciences and mathematics  Electromagnetism, optics, acoustics 
P190  Natural sciences and mathematics  Mathematical and general theoretical physics, classical mechanics, quantum mechanics, relativity, gravitation, statistical physics, thermodynamics 
Evaluation (rules)
source: COBISS
Researchers (8)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  08919  PhD Drago Dolinar  Electric devices  Head  2001 - 2003  630 
2.  09479  PhD Bojan Grčar  Energy engineering  Researcher  2001 - 2003  417 
3.  21319  MSc Aleksander Krašovec  Energy engineering  Researcher  2001 - 2003 
4.  18698  PhD Boštjan Polajžer  Electric devices  Researcher  2001 - 2003  273 
5.  08475  PhD Jožef Ritonja  Energy engineering  Researcher  2001 - 2003  381 
6.  17153  Zlatko Strelec    Researcher  2001 - 2003  22 
7.  10814  PhD Gorazd Štumberger  Electric devices  Researcher  2001 - 2003  979 
8.  08256  PhD Oto Težak  Systems and cybernetics  Researcher  2001 - 2003  183 
Organisations (1)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0796  University of Maribor, Faculty of Electrical Engineering and Computer Science  Maribor  5089638003  27,689 
The research programme Control of Electromechanical Systems consist of two parts. The first part deals with the control of electromagnetic devices or systems, while the second part discusses the control of power systems (local control and protection of power systems). Both parts are combined into one unit by the applied dynamical threatment, which represents the basis for control design in the broadest sense. In the first part, the research team will study various approaches to the dynamic modelling of electromagnetic devices and complex engineering systems. The dynamic models will be used in the analysis of operating properties and in the design of advanced control tehniques. Extensive modern numerical procedures, so far used only by developers and designers of devices, will be used in the greatest possible degree to determine the parameters of electromagnetic devices. In the second part, the research team will deal with dynamic modelling and analysis of power system elements and the power system as a whole. Again, the dynamic approach will be used. The dynamic model of the discussed system namely enables high quality analysis of different states of operation. The research work will be based on the use of theoretical findings in the development of new methods for local control and protection of power system elements, aiming at improved availability and quality of the supplied electric energy. The research is focussed on three fields: the analysis of transients and faults using Euclidean vector spaces and dynamic phasors, the development of tools for computer aided parametrization, coordination and testing of protection devices, and the development of adaptive stabilizers.
Most important scientific results Final report
Most important socioeconomically and culturally relevant results Final report
Views history