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Automatic Control Theory
Major: Avionics
Code of subject: 6.173.00.O.027
Credits: 4.00
Department: Electronics and Information Technology
Lecturer: Liske Oleksii M.
Ph.D., Senior Lecturer
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline, the student must:
- understanding of classical control theory;
- learn the basic principles and mathematical tools of automatic control theory (ACT);
Know the principles of the construction of automatic control systems (ACS), types and methods of transformation of typical units, methods of transformation of structural schemes of ACS;
- be able to use modern computer tools, such as MatLab Simulink, for designing and evaluating the quality of the ACS;
- be able to apply the acquired knowledge for the tasks of analysis and synthesis of automatic control systems of aircraft.
Required prior and related subjects: Prerequisites:
• mathematical analysis;
• physics;
• theoretical basics of electrical engineering;
• basics of automats and automation;
• numerical methods and simulation on a computer.
Corequisites:
• design of systems of avionics;
• reliability of avionics systems;
• control systems for electric drives.
Summary of the subject: General information and classification of automatic control systems. Mathematical description of linear automatic control systems. Properties and characteristics of automatic control systems. Analysis of the stability of linear systems. Transient quality in linear automatic control systems. Methods of analysis and synthesis of linear control systems. Analysis and synthesis of linear systems with random signals.
Assessment methods and criteria: Current control (30 points): practical experiments and reports.
Final control (70 points, test ): control events.
Recommended books: 1. Artyushin L.M. and other. The theory of automatic control. - Lviv: 2004. - 272 pp.
2. Jan Roskam Airplane Flight Dynamics and Automatic Flight Controls. — ISBN10: 1-884885-03-9- 1995, 960 p.
3. Balint A. Advances in Flight Control Systems. — InTech, 2011, 296 p.
4. Pratt R.W. Flight Control Systems: Practical Issues in Design and Implementation. — Institution of Engineering and Technology, 2000, 406 p.
5. Blakelock, John H. Automatic Control of Aircraft and Missiles. 2nd ed. New York: Wiley-Interscience, 1991, 906 p.
6. Samotokin B. B. Course of lectures on the theory of automatic control. - Exactly: ZHITI, 1997.
7. Gogolyuk P.F., Grechin T.M. The theory of automatic control: Teach. manual. - Lviv: Publishing House of the National University "Lviv Polytechnic", 2009 - 280 p.