Difference between revisions of "Cds110b WI14"
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'''Course Desciption and Goals:''' CDS 110b focuses on intermediate topics in control theory, including state estimation using Kalman filters, optimal control methods and modern control design techniques. Upon completion of the course, students will be able to design and analyze control systems of moderate complexity. Students may optionally participate in a course project in lieu of taking the midterm and final. Students participating in the course project will learn how to implement and test control systems on a modern experimental system.  '''Course Desciption and Goals:''' CDS 110b focuses on intermediate topics in control theory, including state estimation using Kalman filters, optimal control methods and modern control design techniques. Upon completion of the course, students will be able to design and analyze control systems of moderate complexity. Students may optionally participate in a course project in lieu of taking the midterm and final. Students participating in the course project will learn how to implement and test control systems on a modern experimental system.  
−  * [http://listserv.cds.caltech.edu/mailman/listinfo/cds110students cds110students mailing list]  all students in the class should be signed up on this list ([http://listserv.cds.caltech.edu/pipermail/cds110students/ archive])  +  <! * [http://listserv.cds.caltech.edu/mailman/listinfo/cds110students cds110students mailing list]  all students in the class should be signed up on this list ([http://listserv.cds.caltech.edu/pipermail/cds110students/ archive]) > 
=== Grading ===  === Grading ===  
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The final grade will be based on homework sets, a midterm exam and a final exam:  The final grade will be based on homework sets, a midterm exam and a final exam:  
* '''Homework: 50%''' <br> Homework sets will be handed out weekly and will generally be due one week later at 5 pm to the box outside of 109 Steele. <font color=blue>Students are allowed three grace periods of two days each which can be used at any time (but no more than 1 grace period per homework set).</font> Additional extensions on homework will only be allowed under exceptional circumstances and require prior permission for the instructor.<br>  * '''Homework: 50%''' <br> Homework sets will be handed out weekly and will generally be due one week later at 5 pm to the box outside of 109 Steele. <font color=blue>Students are allowed three grace periods of two days each which can be used at any time (but no more than 1 grace period per homework set).</font> Additional extensions on homework will only be allowed under exceptional circumstances and require prior permission for the instructor.<br>  
* '''Midterm: 20%''' <br> A midterm exam will be handed out at the beginning of midterms week and due at the end of the midterm examination period. The midterm exam will be open book.<br>  * '''Midterm: 20%''' <br> A midterm exam will be handed out at the beginning of midterms week and due at the end of the midterm examination period. The midterm exam will be open book.<br>  
* '''Final: 30%''' <br>The final exam will be handed out on the last day of class due at the end of finals week. It will be an open book exam.<br>  * '''Final: 30%''' <br>The final exam will be handed out on the last day of class due at the end of finals week. It will be an open book exam.<br>  
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Note: students working on the [[#Course Projectcourse project]] will not be required to take the midterm or final. Instead, two project reports will be due documenting the experimental work performed as part of the class. In addition, students working on the course project are only required to complete the first 2 problems on each homework set.  Note: students working on the [[#Course Projectcourse project]] will not be required to take the midterm or final. Instead, two project reports will be due documenting the experimental work performed as part of the class. In addition, students working on the course project are only required to complete the first 2 problems on each homework set. 
Revision as of 18:26, 8 January 2014
CDS 110b  Schedule  Project  Course Text 

This is the homepage for CDS 110b, Introduction to Control Theory for Winter 2014.
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 8 Jan 14: Wiki Created
Course Syllabus
Course Desciption and Goals: CDS 110b focuses on intermediate topics in control theory, including state estimation using Kalman filters, optimal control methods and modern control design techniques. Upon completion of the course, students will be able to design and analyze control systems of moderate complexity. Students may optionally participate in a course project in lieu of taking the midterm and final. Students participating in the course project will learn how to implement and test control systems on a modern experimental system.
Grading
Note: students working on the course project will not be required to take the midterm or final. Instead, two project reports will be due documenting the experimental work performed as part of the class. In addition, students working on the course project are only required to complete the first 2 problems on each homework set.
Collaboration Policy
Collaboration on homework assignments is encouraged. You may consult outside reference materials, other students, the TA, or the instructor. All solutions that are handed in should reflect your understanding of the subject matter at the time of writing. MATLAB scripts and plots are considered part of your writeup and should be done individually. Use of written solutions from prior years or other sources is not allowed.
No collaboration is allowed on the midterm or final exams.
Course Text and References
The main course text is
 J. Doyle, B. Francis, A. Tannenbaum, Feedback Control Theory, Macmillan, 1992.
 R. M. Murray, OptimizationBased Control, Preprint, 2008.
You may find the following texts useful as well:
 K. J. Åström and R. M. Murray, Feedback Systems, Princeton University Press, 2008.
 B. Friedland, Control System Design: An Introduction to StateSpace Methods, Dover, 2004.
 F. L. Lewis and V. L. Syrmos, Optimal Control, Second Edition, WileyIEEE, 1995. (Google Books)
 A. D. Lewis, A Mathematical Approach to Classical Control, 2003.