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Original title in Czech: Matematika v elektroinženýrstvíFEKTAbbreviation: PP-MVEAcad. year: 2016/2017
Programme: Electrical Engineering and Communication
Length of Study: 4 years
Accredited from: 25.7.2007Accredited until: 31.12.2020
Profile
The postgraduate study programme aims at preparing top scientific and research specialists in various areas of mathematics with applications in electrical engineering fields of study, especially in the area of stochastic processes, design of optimization and statistic methods for description of the systems studied, analysis of systems and multisystems using discrete and functional equations, digital topology application, AI mathematical background, transformation and representation of multistructures modelling automated processes, fuzzy preference structures application, multicriterial optimization, research into automata and multiautomata seen in the framework of discrete systems, stability and system controllability. The study programme will also focus on developing theoretical background of the above mentioned areas of mathematics.
Key learning outcomes
The graduates of the postgraduate study programme Mathematics in Electrical Engineering will be prepared for future employment in the area of applied research and in technology research teams. Due to the comprehensive use of computer engineering throughout the study programme, the graduates will be well prepared for work in the area of scientific and technology software development and maintenance. The graduates will also be prepared for management and analytical positions in companies requiring good knowledge of mathematical modelling, statistics and optimization.
Occupational profiles of graduates with examples
Guarantor
doc. RNDr. Zdeněk Šmarda, CSc.
Issued topics of Doctoral Study Program
The dissertation will be focused on study and development of methods with origins in algebraic and topological properties of the fundamental structures of formal concept analysis in the sense of B. Ganter and R. Wille. There will be investigated also generalized metric properties of these structures connected with the notions of a partial metric, quasi metric or quasi-pseudo metrics. Possible applications are - outside the mathematical sciences - also in computer science, cybernetics, physics and biomedicine.
Tutor: Kovár Martin, doc. RNDr., Ph.D.
The aim is to derive algorithms for analytical solution of discrete equations and systems with aftereffect and their application to solving mathematical models of electrical circuits. The work will be a continuation of previous results derived in the paper „Solution of the serial circuit RLC“ by J. Diblík and J. Klimek:, Elektrorevue, 2007/22-13.6.2007, 22-1-22-10 (ISSN 12131539, http://www.elektrorevue.cz). Starting literature – parts of the book by A.V. Oppenheim, R.W. Schafer, J.R. Buck, Discrete-Time Signal Processing, Prentice Hall, 1999.
Tutor: Diblík Josef, prof. RNDr., DrSc.
The aim of the work is to modify and extend numerical solution methods to solving some classes of matrix systems of differential equations with delay. Possible applications are, among others, e.g. in control theory and optimization.
Tutor: Baštinec Jaromír, doc. RNDr., CSc.
Dissertation will be focused on development of semianalytical numerical methods and their applications to solving initial and boundary value problems for partial differential equations. Convergence analysis of proposed methods will be discussed as well
Tutor: Šmarda Zdeněk, doc. RNDr., CSc.
The dissertation will be focused on the study and development of certain suitable topological methods for the work with the mathematical structures, carrying some information.The research will be concentrated especially on the properties and the relationships of causal character. Possible applications are, among others, e.g. in computer science (concurrent and parallel processes), cybernetics, quantum information theory and physics (some aspects of general relativity versus quantum gravity).