Course
| code | EE417 |
| credit_hours | 3 |
| title | Automatic Control Engineering |
| arbic title | |
| prequisites | EE329 |
| credit hours | 3 |
| Description/Outcomes | Introduction to control system, Mathematical Modeling and Analogy between Different Dynamic Systems, Transfer Function – characteristic equation, Open and Closed Loop Transfer Function Block Diagram Reduction,. System Response, First and Second order system. System Response, Second order system – Matlab Applications. System Response, Higher oder system – Error Analysis - Stability analysis - Routh- Hurwitz stability criterion (with applications to mechanical systems). Root locus Analysis. Matlab Applications for Root Locus Analysis (with applications to mechanical systems). PI – controller – Zeigler Nichols Method. Lead Compensator Design – Matlab applications. Lag Compensator Design – Matlab applications. |
| arabic Description/Outcomes | |
| objectives | The aim of this course is to present and introductory yet comprehensive definition of terms and mathematical tools used in the study of control. The student should be able to: Apply theories and concepts of automatic control systems and engineering principles to mechanical and marine system . Use mathematical & computational skills in solving Automatic control engineering problems. Use a wide range of software modeling and design like matlab control toolbox. Use computational tools and packages and write computer programs pertaining to automatic control applied on mechanical and marine engineering. Refer to scientific literature effectively. |
| arabic objectives | |
| ref. books | -Y. El Gamal A.Amer, “Introduction to Control Engineeringâ€, AAST 1988. Nagrath 80 Gapal, “Control System Engineeringâ€, John Wiely & Son, NY 1982. K.O.Gatw, “Modern Control Engineeringâ€, Prentice Hall New Delhi, 1984. |
| arabic ref. books | |
| textbook | Ogata,K , "Modern control Engineering", Prentice – Hall , 1985. |
| arabic textbook | |
| objective set | |
| content set | |