Control Engineering

The course is a substitute for:

Control Engineering (X35RTE)

Lecturer:

Tutor:

Supervisor:

Department of Control Engineering

Synopsis:

The aim of the subject is to present problems of dynamic systems control. Simple methods of feedback systems analysis and synthesis will be presented. Also motivation examples of modern methods will be given. The students will be acquainted with methods of systems description and modeling, simulation tools, basic linear system analysis, simple controller synthesis and verification. The aim of the subject is to motivate the students to deeper studies of cybernetics and control.

Requirements:

XE01MA1, XE01ALG, XE01MA2

Syllabus of lectures:

1. Decision and control, systems and models, control structures, examples

2. Decision and control, systems and models, control structures, examples

3. State space continuous - time model, input-output model conversion

4. Analytical and numerical methods for solving differential equations,

linearization

5. Systems properties, composed systems

6. Discrete - time systems and their properties, Z-transform

7. Discretization of continuous - time systems

8. Feedback control and its properties, PID and PSD controller

9. Frequency domain feedback design

10. Pole placement feedback design

11. Signal based system identification

12. State feedback, modification of system dynamic properties, examples

13. Nonlinear and optimal control

14. Principles of adaptive control, fuzzy control

Syllabus of tutorials:

1. Content of the subject and seminars, examples of control

2. Tools for system description - frequency responses, Laplace transform

3. MATLAB programming language - basic system

4. MATLAB programming language - additional functions

5. Input - output system description - MATLAB Control Toolbox.

6. SIMULINK - programming system for modeling and simulation

7. Z-transform, discrete system description, discrete model in SIMULINK

8. Feedback control, structure of PID and PDS controllers

9. Feedback design methods

10. Test, individual project definition

11. Signal based system identification

12. Examples of laboratory feedback models

13. Individual project

14. Project presentation, credits

Study Objective:

Study materials:

1. Franklin, G.F., Powell, J.D., Emami-Naeini, A.: Feedback Control of Dynamic Systems. Addison-Wesley, New York 1995

2. Astrom, K.J., Wittenmark, B.: Computer Controlled Systems - Theory and Design. Prentice Hall, Englewood Cliffs 1990

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Společný plán- strukturované anglické studium (elective specialized course)
• Electronics and Communication Technology - structured studies (elective specialized course)
• Cybernetics and Measurements- structured studies (elective specialized course)
• Heavy-current Engineering- structured studies (elective specialized course)
• Computer Technology- structured studies (elective specialized course)