Fuzzy Control
Code | Completion | Credits | Range |
---|---|---|---|
X35FZR | KZ | 3 | 2+1s |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Control Engineering
- Synopsis:
-
The scope of the course is to present the basic principles, methods and
algorithms in fuzzy logic modelling and control of dynamical systems. The
lectures are focusing on basics of fuzzy logics and general design of fuzzy
logic systems and structure and learning algorithms of the most used neural
and fuzzy neural networks.The obtained knowledge is then applicated on
problem solving in modelling and control of dynamical systems. The students
will verify the algorithms on modelling and control of models of dynamical
physical systems in the laboratory of control theory or on another
experimental data.
- Requirements:
-
Backgrounds of modelling and control of dynamical systems (Laplace transform, system description, stability, frequency response, design of PID compensator)
- Syllabus of lectures:
-
1. Introduction to fuzzy logic, advantages and disadvantages of fuzzy
systems
2. Linguistic and Takagi-Sugeno fuzzy models
3. Fuzzy sets, operations, relations
4. Fuzzification and defuzzification.
5. Fuzzy rules, aggregation, inference mechanisms
6. Neural networks, architecture
7. Neural networks learning algorithms
8. Fuzzy neural networks in modelling
9. Knowledge-based and data-driven model building, cluster analysis
10. Fuzzy control, controllers' structure
11. Stability of fuzzy systems
12. Fuzzy neural networks in control
13. Implementation of fuzzy systems on PLCs
14. Examples of applications of fuzzy systems in modelling and control
- Syllabus of tutorials:
-
1. Recapitulation of relevant mathematical apparatus
2. Fuzzy Logic Toolbox for Matlab
3. Neural Network Toolbox for Matlab
4. Essay I - fuzzy neural modelling
5. Study of literature relevant to essay I
6. Elaboration of essay I
7. Elaboration of essay I
8. Essay II - fuzzy neural control
9. Study of literature relevant to essay II
10. Elaboration of essay II
11. Elaboration of essay II
12. Elaboration of essay II
13. Presentation of results
14. Presentation of results
- Study Objective:
- Study materials:
-
1. Driankov D., Hellendoorn H., Reinfrank M. M.: An Introduction to Fuzzy
Control, 1993. Springer Verlag.
2. Jang J.S.R., Sun C.T., Mizutani E.: Neuro-fuzzy and Soft Computing, 1997.
Prentice Hall.
3. Fuzzy Logic Toolbox for Matlab, User's Guide.
4. Neural Network Toolbox for Matlab, User's Guide.
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- Telecommunications and Radio-engineering - High-frequency and Microwave Technology- structured studi (elective specialized course)
- Heavy-current Engineering - Technological Systems- structured studies (elective specialized course)
- Cybernetics and Measurements - Control Engineering- structured studies (elective specialized course)
- Electronics - Electronic Systems- structured studies (elective specialized course)
- Economics and Management of Power Engineering- structured studies (elective specialized course)
- Biomedical Engineering- structured studies (elective specialized course)
- Economics and Management in Electrical Engineering- structured studies (elective specialized course)
- Electronics - Electronic Applications- structured studies (elective specialized course)
- Electronics - Electronics and Photonics- structured studies (elective specialized course)
- Cybernetics and Measurements - Artificial Intelligence- structured studies (elective specialized course)
- Cybernetics and Measurements - Measurement and Instrumentation Systems- structured studies (elective specialized course)
- Cybernetics and Measurements - Aeronautical Engineering and Control Systems- structured studies (elective specialized course)
- Heavy-current Engineering - Electric Drives- structured studies (elective specialized course)
- Heavy-current Engineering - Electroenergetics- structured studies (elective specialized course)
- Heavy-current Engineering - Electrical Engineering Applications- structured studies (elective specialized course)
- Telecommunications and Radio-engineering - Opto-electric Systems- structured studies (elective specialized course)
- Telecommunications and Radio-engineering - Radio Communications, Navigation and Radar Systems- struc (elective specialized course)
- Telecommunications and Radio-engineering - Multimedia, Sound and Television Technology- structured s (elective specialized course)
- Telecommunications and Radio-engineering - Telecommunications- structured studies (elective specialized course)