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Original title in Czech: Kybernetika, automatizace a měřeníFEKTAbbreviation: PK-KAMAcad. year: 2010/2011
Programme: Electrical Engineering and Communication
Length of Study: 4 years
Profile
Goals of this program are to educate most qualified specialists for research and scientific development as well.
Key learning outcomes
Graduates have outstanding knowledge in special area, determined by his/her PhD. project. Special orientation is given by thesis;graduates are qualified for high positions in all branch. Leader of research team,managers in industry.
Occupational profiles of graduates with examples
The graduate of the subject field obtains broad knowledge of subject of cybernetics control and/or measuremet. The knowledge is build mainly on theoretical background of the subject. Moreover the graduate will obtain deep special knowledge aimed in direction of his/her thesis. The graduate will be able to perform scientific and/or applied research based on up to date theoretical knowledge. The graduate will be able to organize and lead a team of researchers in the studied subject.
Guarantor
prof. Ing. Pavel Václavek, Ph.D.
Issued topics of Doctoral Study Program
Formal description of the safety systems. Time relations evaluation and modeling in the safety systems. Safety system's time response improvement with preservation or improvement of the system safety level.
Tutor: Bradáč Zdeněk, doc. Ing., Ph.D.
Modeling of time transfer parameters of the communication networks and analysis of their influence on performance of feed-back control systems. Analysis of the communication subsystem's stochastic parameters for evaluation of control quality and compensation of the time-domain disturbances. Assurance of stability in the networked control systems.
This theme will deal with a design of control methods for sensorless speed control of AC electric drives focusing on ACI motors. Theoretical part will provide an analysis of sensorless control methods. The analysis will focus on new algorithms and their physical limits. An essential part of the thesis will be application focused. The new designed algorithms will be optimized in terms of implementation on microcontrollers and incorporation into the vector control structure. The thesis will be solved in cooperation with an industrial partner. It is expected to bring out a functional sample.
Tutor: Václavek Pavel, prof. Ing., Ph.D.
Time synchronization and real-time control of time critical dynamic systems utilizing Ethernet communication. Formal description and modeling of the Ethernet communication system time parameters. Development of methodology for time response improvement in the real-time dynamic control systems based on Ethernet communication.