Lecturer: Sayyed Mahmoud Reza Pishvaie
Status (in the study program): Compulsory course in graduate study, for Simulation & Control Group
Aims/Scope/Objectives: The students are acquainted with engineering judgment, analysis and design of modern (& optimal) control systems in chemical processes. The basic aim is to familiarize student with key components and behavior of dynamical systems with an emphasis on MIMO systems. In the early sections of the lectures (named Advanced Control Methods), students are brought the improvement schemes of the closed loop behavior such as time-delay compensation, cascaded loops and the likes. The two remaining parts, named Modern and Optimal Control Methods, discuss about time-domain (state-space) analysis and design of processes.
References:
[1] Stephanopoulos, G. , Chemical Process Control, Prentice-Hall (1984).
[2] Ogunnaike, B.A. and W. H. Ray, Process Dynamics, Modelling and Control, Oxford University Press (1994).
[3] Bequette, B.W. , Process Control: Modeling, Design, and Simulation, Prentice-Hall (2003).
[4] Romagnoli, J.A. and A. Palazoglu, Introduction to Process Control, Taylor and Francis (2006).
[5] Seborg, D.E., T.F. Edgar and D.A. Mellichamp, Process Dynamics and Control, 2 nd ed., Wiley (2004).
[6] Smith, C.A. and A.B. Corripio, Principles and Practice of Automatic Process Control, 3 rd ed., Wiley (2005).
[7] Luyben, M.L. and W.L. Luyben, Essentials of Process Control, McGraw-Hill (1997).
[8] Ogata, K. Modern Control Engineering, 4th Ed., Prentice-Hall Inc. (2002).
[9] Anderson, B.D.O., and J.B. Moore, Linear Optimal Control, Upper Saddle River, NJ: Prentice-Hall Inc. (1971).
[10] Athans, M., and P.L. Falb, Optimal Control: An Introduction to the theory and Its Applications, NY: McGraw-Hill (1965).
[11] Cheng, D.K., Analysis of Linear Syaytems, Reading MA: Addison-Weseley Publishing Co. (1959).
[12] Kailath, T., Linear Systems, Upper Saddle River, NJ: Prentice-Hall Inc. (1971).
Teaching Method: Lectures.
Prerequisites: Mathematics, (preferably) MATLAB/SIMULINK.
Personal work required: Home works & Quiz Attendance
Examination method: Exam-based.
CONTENTS (COVER):
1. Preface (last updated : 1386/07/18)
2. Review of Classical Control Methods (SISO) (last updated : 1386/07/18)
3. Smith (delay) Predictor (last updated : 1386/07/18)
4. Cascade Control (last updated : 1386/07/18)
5. Feed-Forward Control (last updated : 1386/07/18)
6. Other schemes for loop improvement (last updated : 1386/07/18)
7. State space - fundamentals (last updated: 1386/08/10)
8.Canonical forms (last updated: 1386/08/10)
9. Solution of linear ODEs (last updated: 1386/08/10)
10. Transformations (last updated: 1386/08/10)
11.Stability (last updated: 1386/10/10)
12. MIMO Design (Freq. Domain) (last updated: 1386/10/10)
13. session13_ModifiedVer.pdf (last updated: 1386/10/10)
14.session14_ModifiedVer.pdf (last updated: 1386/10/10)
15. session15_ModifiedVer.pdf (last updated: 1386/10/10)
16.session16_ModifiedVer.pdf (last updated: 1386/10/10)
17. session17_ModifiedVer.pdf (last updated: 1386/10/10)
18.session18_ModifiedVer.pdf (last updated: 1386/10/10)
19.session19_ModifiedVer.pdf (last updated: 1386/10/10)
20.session20_ModifiedVer.pdf (last updated: 1386/10/10)
Appendices:
5. Download 40 Farsi fonts For XP
Format of HW sheet when delivered :
All home works should be delivered before the due date.
The HWs should be mailed to me through the URL: pishvaie@sharif.edu
The HWs may be (preferably) typed and delivered in .doc or .pdf format. The HW document should be sent as an attached file and the other files should be zipped or rar'ed(!) firstly and be attached beside the main document. It is appreciated if hand-written HWs are scanned and delivered via email as well.
All the .m files (scripts and functions) should be internally-documented very well.
The headers include the HW number, Course Title, Student name, Student ID and date of delivery.
Homeworks:
HW01, Due date: 1390/08/21
HW02, Due date: 1390/08/21
HW03, Due date: 1390/08/21
HW04, Due date: 1390/08/30
HW05, Due date: 1390/08/30