Difference between revisions of "CDS 202, Winter 2009"
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This is the homepage for CDS 202 (Geometry of Nonlinear Systems) for Winter 2009.  
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'''Instructor:'''  '''Instructor:'''  
* Richard Murray (murray@cds.caltech.edu), 109 Steele  
:  '''Lectures and course mailing list:'''  
  * TuTh 910:30a, 214 Steele  
* [http://listserv.cds.caltech.edu/mailman/listinfo/cds202 Course mailing list]  
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'''Teaching Assistant:'''  '''Teaching Assistant:'''  
* Paul Skerritt  
'''Office hours/recitations:'''  
* Office hours: Tue 45pm, Wed 45pm, 110 Steele  
:  * Problem solving sessions: Wed, 67pm, 214 Steele  
:  
} __NOTOC__  } __NOTOC__  
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{{cds202wi08 weekWeekLec 1Lec 2TopictextReadingtextHomework}}  {{cds202wi08 weekWeekLec 1Lec 2TopictextReadingtextHomework}}  
{{cds202wi08 week1 N/A  {{cds202wi08 week 1 6 Jan N/ACourse introduction and schedulingtext[http://www.cds.caltech.edu/~murray/papers/1994f_mur94nas.html Murray (1994)]textNone}}  
{{cds202wi08 week2  {{cds202wi08 week 2 8 Jan13 JanPoint set topologymra1homework1}}  
{{cds202wi08 week3  {{cds202wi08 week 315 Jan20 JanManifolds, maps, tangent spacesmra2.32.4, 3.13.3 homework 2}}  
{{cds202wi08 week4  {{cds202wi08 week 422 Jan27 JanImmersions, submersions, inverse function theoremmra2.5, 3.5 homework 3}}  
{{cds202wi08 week53  {{cds202wi08 week 529 Jan3 FebTangent bundle, vector fields, flowsmra3.3, 4.14.2 homework 4}}  
{{cds202wi08 week6  {{cds202wi08 week 65 Feb10 FebDistributions, Frobenius theoremmra4.2, 4.4 homework 5}}  
{{cds202wi08 week7  {{cds202wi08 week 712 Feb17 FebLie groups and Lie algebrasmra5.15.2 homework 6}}  
{{cds202wi08 week8  {{cds202wi08 week 819 Feb24 FebApplications of Lie groupsmra5.3 + [[http:www.cds.caltech.edu/~murray/papers/1994h_km94cds.htmlKM94]] homework 7}}  
{{cds202wi08 week93  {{cds202wi08 week 926 Feb3 MarDifferential formsmra6.16.2, 7.17.3 homework 8}}  
{{cds202wi08 week10  {{cds202wi08 week105 Mar10 MarIntegration on manifolds, exterior derivativemra7.47.5,8.18.3 homework 9}}  
}  }  
=== Course Text ===  === Course Text ===  
The primary course text is the third edition of ''Manifolds, Tensor Analysis, and Applications'':  The primary course text is the third edition of ''Manifolds, Tensor Analysis, and Applications'':  
* Marsden, Ratiu and Abraham, Manifolds, Tensor Analysis, and Applications (if you are registered for the course, send email to Richard Murray  * Marsden, Ratiu and Abraham, [http://www.cds.caltech.edu/~marsden/cds20208/mta Manifolds, Tensor Analysis, and Applications] (if you are registered for the course, send email to Richard Murray for the password).  
In addition, students may find the following textbooks useful:  In addition, students may find the following textbooks useful:  
* Boothby, An Introduction to Differential Manifolds and Riemannian Geometry, Revised second edition, 2002.  * Boothby, An Introduction to Differential Manifolds and Riemannian Geometry, Revised second edition, 2002.  
=== Grading ===  === Grading ===  
The ﬁnal grade will be based on homework and a ﬁnal exam:  
* Homework (75%)  There will be 9 oneweek problem sets, due in class one week after they are assigned. Late homework will not be accepted without prior permission from the instructor.  
* Final exam (25%)  The ﬁnal will be handed out the last day of class and is due back at the end of ﬁnals week. Open book, time limit to be decided (likely N hours over a 48N hour period).  
The lowest homework score you receive will be dropped in computing your homework average. In addition, if your score on the ﬁnal is higher than the weighted average of your homework and ﬁnal, your ﬁnal will be used to determine your course grade.  
=== Collaboration Policy ===  
Collaboration on homework assignments is encouraged. You may consult outside reference materials, other students, the TA, or the instructor. Use of solutions from previous years in the course is not allowed. All solutions that are handed should reﬂect your understanding of the subject matter at the time of writing.  
No collaboration is allowed on the ﬁnal exam.  
[[Category:Courses]]  [[Category:Courses]] 
Latest revision as of 04:52, 27 June 2021
This is the homepage for CDS 202 (Geometry of Nonlinear Systems) for Winter 2009.
Instructor:
Lectures and course mailing list:

Teaching Assistant:
Office hours/recitations:

Course Description
CDS 202. Geometry of Nonlinear Systems. 9 units (306); second term. Prerequisites: CDS 201 or AM 125 a. Basic diﬀerential geometry, oriented toward applications in control and dynamical systems. Topics include smooth manifolds and mappings, tangent and normal bundles. Vector ﬁelds and ﬂows. Distributions and Frobeniuss theorem. Matrix Lie groups and Lie algebras. Exterior diﬀerential forms, Stokes theorem.
Course Schedule
Week  Lec 1  Lec 2  Topic  Reading  Homework 
1  6 Jan  N/A  Course introduction and scheduling  Murray (1994)  None 
2  8 Jan  13 Jan  Point set topology  MTA Ch 1  HW #1 (solns) 
3  15 Jan  20 Jan  Manifolds, maps, tangent spaces  MTA Ch 2.32.4, 3.13.3  HW #2 (solns) 
4  22 Jan  27 Jan  Immersions, submersions, inverse function theorem  MTA Ch 2.5, 3.5  HW #3 (solns) 
5  29 Jan  3 Feb  Tangent bundle, vector fields, flows  MTA Ch 3.3, 4.14.2  HW #4 (solns) 
6  5 Feb  10 Feb  Distributions, Frobenius theorem  MTA Ch 4.2, 4.4  HW #5 (solns) 
7  12 Feb  17 Feb  Lie groups and Lie algebras  MTA Ch 5.15.2  HW #6 (solns) 
8  19 Feb  24 Feb  Applications of Lie groups  MTA Ch 5.3 + KM94  HW #7 (solns) 
9  26 Feb  3 Mar  Differential forms  MTA Ch 6.16.2, 7.17.3  HW #8 (solns) 
10  5 Mar  10 Mar  Integration on manifolds, exterior derivative  MTA Ch 7.47.5,8.18.3  HW #9 (solns) 
Course Text
The primary course text is the third edition of Manifolds, Tensor Analysis, and Applications:
 Marsden, Ratiu and Abraham, Manifolds, Tensor Analysis, and Applications (if you are registered for the course, send email to Richard Murray for the password).
In addition, students may find the following textbooks useful:
 Boothby, An Introduction to Differential Manifolds and Riemannian Geometry, Revised second edition, 2002.
Grading
The ﬁnal grade will be based on homework and a ﬁnal exam:
 Homework (75%)  There will be 9 oneweek problem sets, due in class one week after they are assigned. Late homework will not be accepted without prior permission from the instructor.
 Final exam (25%)  The ﬁnal will be handed out the last day of class and is due back at the end of ﬁnals week. Open book, time limit to be decided (likely N hours over a 48N hour period).
The lowest homework score you receive will be dropped in computing your homework average. In addition, if your score on the ﬁnal is higher than the weighted average of your homework and ﬁnal, your ﬁnal will be used to determine your course grade.
Collaboration Policy
Collaboration on homework assignments is encouraged. You may consult outside reference materials, other students, the TA, or the instructor. Use of solutions from previous years in the course is not allowed. All solutions that are handed should reﬂect your understanding of the subject matter at the time of writing.
No collaboration is allowed on the ﬁnal exam.