Course
code | EE712 |
credit_hours | 3 |
title | Linear Control System |
arbic title | |
prequisites | None |
credit hours | 3 |
Description/Outcomes | Review of SISO systems. Multivariable systems time varying systems. Controllability and observability, state variable feedback pole placement. System observer. Large scale systems. Introduction to optimum control Application. |
arabic Description/Outcomes | |
objectives | The student should be able to: Generalize the knowledge of students in the field of linear systems. Deal with linear multivariable systems and to get through practical models from the analysis and design point of view. |
arabic objectives | |
ref. books | C.T. Chen. Linear system theory and Design, Oxford University Publisher, 1999. J.J. D’AZZO. and C. Houpis "Linear control system analysis and design", McGraw-Hill, 1995. I. Postethwaite and S.Skoestad, "Multivariable Feedback Control: Analysis and Design", Wiley, Chichester, 2005. |
arabic ref. books | |
textbook | |
arabic textbook | |
objective set | |
content set | |
Course Content
content serial |
Description |
1 |
Introduction.
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2 |
Review of SISO systems.
|
3 |
Linear multi variable systems analysis.
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4 |
Time varying systems.
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5 |
State variable model for multi variable systems.
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6 |
System controllability and system observability.
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7 |
Introduction to state variable feedback.
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8 |
State variable feedback using pole placement technique.
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9 |
Decoupling of linear multivariable systems using state feedback.
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10 |
Decoupling of linear multivariable systems using state feedback.
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11 |
Design of a system observer.
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12 |
Large scale systems.
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13 |
Practical applications.
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14 |
Practical applications.
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15 |
Practical applications.
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16 |
Final Exam.
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