Goals of this program are to educate most qualified specialists for research and scientific development as well.

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.

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.

prof. Ing. Pavel Václavek, Ph.D.

1. Discrete Time Non-linear Dynamical Systems

   The topic is aimed to discrete time non-linear systems analysis. Attention will be paid especially to the problem of nonlinear systems discretization. Discrete time nonlinear systems state observability will be also studied. The research results will be applied in the field of AC drives models.

   Supervisor: Václavek Pavel, prof. Ing., Ph.D.

2. Localization of sound and vibration sources with non-contact methods

   The topic is aimed to the research of the methods and algorithms for non-contact localization and characterization of sound and vibration sources. Issues related especially with analysis of the sources with near-field acoustic holography method using microphone array will be studied with respect to its applicability for localization in confined space with reflections and other noise sources and also to increase the prediction accuracy with data fusion from other spatial measurement systems. In addition to the theoretical work, practical implementation of these methods and optimization of calculation algorithms for use in the field of non-contact vibrodiagnostics and localization of noise sources in mechanical systems will be carried out.

   Supervisor: Bejček Ludvík, doc. Ing., CSc.

3. Measurement of fluid flow by average Pitot tubes, study the effects and measurement method

   The dissertation thesis will be aimed to the research of the method of fluid flow measurement by average Pitot tubes and specification of influences that affect the measurement accuracy. The attention will be given on the determination of the effect of size and shape of the probes, influence of the shape and size of sensing ports for the measurement of differential pressure. The influence of effects such as the straight pipe lengths, the temperature or the rotation sensors will be also studied. In addition to the theoretical work, the verification by practical measurements (the possibility of using of special measuring track for flowmeters testing on ÚAMT) and further implementation of simulation using the finite element method, will be carried out.

   Supervisor: Bejček Ludvík, doc. Ing., CSc.

4. Methods for the primary calibration of vibration transducers

   The topic is aimed on the primary and secondary calibration of vibration sensors. The objectives of the work consist in the analysis of parasitic effects, which affect the overall measurement uncertainty and the search for new methods for their suppression. For the research will be available calibration system SPEKTRA CS18.

   Supervisor: Beneš Petr, doc. Ing., Ph.D.