Objective of the course – aims of the course unit:|
Extension of theoretical knowledge essential for elaboration and successsful defense of PhD. thesis. Scientific education in the field of electric machines and apparatus.
Objective of the course – learning outcomes and competences:|
General summary acquirement on recent trends in the field of electric machines and apparatus. Acquisition and implementation of up-to-date numerical methods and methods of AI.
The subject knowledge on the technical university education level is requested.
Course contents (annotation):|
Topical subjects of electromechanical energy conversion and electrical apparatus theory and design. Application of up-to-date numerical methods and AI to solution of problems in the field of electric machines and apparatus.
Teaching methods and criteria:|
Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations.
Assesment methods and criteria linked to learning outcomes:|
Students elaborate 2 projects according to teachers' instructions. Subject is finished by oral final exam before teachers board.
1. Physical basis of energy conversion, Hamilton principle, Lagrangian state equation.
2. Present-day computational methods and modeling of electromechanic systems, methods of artificial inteligency.
3. Numerical simulations based on FEM.
4. Electromechanic systems with rotational motion.
5. Electromechanic systems with linear motion.
6. Generalized electric machine, equations of motion.
7. Electric machines for motor vehicles.
8. Automate measurement of electric machines and apparatus.
8. Theory of inventive problem solving
Specification of controlled education, way of implementation and compensation for absences:|
The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.
White,D.C.,Woodsone,H.H.: Electromechanical energy conversion. John Wiley and sons, NY 1959
Chee -Mun Ong: Dynamic simulation of electric machinery using matlab and simulink. Prentice Hall, USA, 1997.
KOZIEJ E.: Mazsyny Elektryczne pojazdów samochodowych WNT Warszawa, 1990
Votruba: Rozvíjení tvořivosti techniků. ACADEMIA, 2000, Praha