# Difference between revisions of "CDS 101/110a, Fall 2007 - Recitation Schedule"

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=== Section 1: Feedback and Control in Nature === | === Section 1: Feedback and Control in Nature === | ||

− | This section is designed for students interested in the application of ideas from feedback and control to systems in nature. It is also suitable for students who do not have lots of prior coursework in linear algebra, ordinary differential equations or complex variables. All students in CDS 101 are | + | This section is designed for students interested in the application of ideas from feedback and control to systems in nature. It is also suitable for students who do not have lots of prior coursework in linear algebra, ordinary differential equations or complex variables. All students in CDS 101 are initially assigned to this section. |

− | *TA: Luis Soto | + | <blockquote> |

+ | {| width=100% cellspacing=0 cellpadding = 0 | ||

+ | |- | ||

+ | | width=50% | | ||

+ | * '''TA:''' Luis Soto | ||

+ | | | ||

+ | * '''Location:''' 110 STL | ||

+ | |- valign=top | ||

+ | | | ||

+ | * Rebecca Barter | ||

+ | * Arkya Dhar | ||

+ | * Stephan Duewel | ||

+ | | | ||

+ | * Alberto Izarraraz | ||

+ | * Lauren LeBon | ||

+ | * Ophelia Venturelli | ||

+ | |} | ||

+ | </blockquote> | ||

− | + | === Section 2: Ae/ME === | |

− | |||

− | |||

− | |||

− | |||

− | |||

− | + | This section is intended for students who are interested in the application of feedback and control to mechanical and electro-mechanical systems such as airplanes, cars, robots, etc. | |

− | + | <blockquote> | |

+ | {| width=100% cellspacing=0 cellpadding = 0 | ||

+ | |- | ||

+ | | width=50% | | ||

+ | * '''TA:''' Sawyer Fuller | ||

+ | | | ||

+ | * '''Location:''' 214 STL | ||

+ | |- valign=top | ||

+ | | | ||

+ | * Balakrishnam, Karthik | ||

+ | * Bozorg-Grayeli, Elah | ||

+ | * Chan, Derek | ||

+ | * Coralic, Vedran | ||

+ | * Cui, Shifu | ||

+ | * Elzinga, Michael | ||

+ | * Feldman, Matthew S. | ||

+ | * Grossman, Marc | ||

+ | * Gutschick, David | ||

+ | * Haderlein, Peter | ||

+ | * Heltsley, Drew | ||

+ | * Hires, Bryan | ||

+ | | | ||

+ | * Kramer, Nick | ||

+ | * Kwa, Timothy | ||

+ | * Liang, Joe | ||

+ | * Man, Han Bin | ||

+ | * Merfeld, Max | ||

+ | * Miller, Madeline | ||

+ | * Paulos, Jimmy | ||

+ | * Roa, Mario | ||

+ | * Sheng, Jing | ||

+ | * Stroup, Adrianne | ||

+ | * Winiarz, Christine | ||

+ | |} | ||

+ | </blockquote> | ||

− | === Section 3: EE | + | === Section 3: Ae/ME/EE === |

− | This section is intended for students who are interested in the application of feedback and control to | + | This section is intended for students who are interested in the application of feedback and control to mechanical and electro-mechanical systems such as airplanes, cars, robots, etc. |

+ | |||

+ | <blockquote> | ||

+ | {| width=100% cellspacing=0 cellpadding = 0 | ||

+ | |- | ||

+ | | width=50% | | ||

+ | * '''TA:''' Julia Braman | ||

+ | | | ||

+ | * '''Location:''' 206 TOM | ||

+ | |- valign=top | ||

+ | | | ||

+ | * Arroyo, Jennifer | ||

+ | * Bowers, Steven | ||

+ | * Burt, Jason | ||

+ | * Chen, Jay | ||

+ | * Fuentes Hierro, Manuel | ||

+ | * Grogan, Robert | ||

+ | * Jiang, Michelle | ||

+ | * Ko, Huaising Cindy | ||

+ | * Leichty, John | ||

+ | * Littlepage, Kelly | ||

+ | * Liu, Annie | ||

+ | | | ||

+ | * Liu, Qing | ||

+ | * Pallett, Elliott | ||

+ | * Pantel, Erica | ||

+ | * Spink, Torrey | ||

+ | * Thai, Daniel | ||

+ | * Ueno, Makoto | ||

+ | * Wagner, Glenn | ||

+ | * Wang, Yingying | ||

+ | * Wierman, Matthew | ||

+ | * Wu, Min-Hao | ||

+ | * Zhang, Sebastian | ||

+ | |} | ||

+ | </blockquote> | ||

=== Section 4: Theory === | === Section 4: Theory === | ||

− | This section is intended for more advanced students who would like a more theoretical description of some of the tools of the class. This section will not go through a problem from the homework in much detail, but will instead discuss more advanced approaches to the topics being considered for that week. TA: Elisa Franco | + | This section is intended for more advanced students who would like a more theoretical description of some of the tools of the class. This section will not go through a problem from the homework in much detail, but will instead discuss more advanced approaches to the topics being considered for that week. |

+ | |||

+ | * [[Media:EF11092007Recitation.pdf | Notes]] for the recitation of Friday, November 9. | ||

+ | * [[Media:EF11162007Recitation.pdf | Notes]] for the recitation of Friday, November 16. | ||

+ | * [[Media:EF11302007Recitation.pdf | Notes]] for the recitation of Friday, November 30. | ||

+ | |||

+ | <blockquote> | ||

+ | {| width=100% cellspacing=0 cellpadding = 0 | ||

+ | |- | ||

+ | | width=50% | | ||

+ | * '''TA:''' Elisa Franco | ||

+ | | | ||

+ | * '''Location:''' 102 Steele | ||

+ | |- valign=top | ||

+ | | | ||

+ | |||

+ | * Best, Melissa | ||

+ | * Bourel, Alexis | ||

+ | * Carson, Vanessa | ||

+ | * Cayco Gajic, Natasha | ||

+ | * Cho, Angela | ||

+ | * Chen, Kevin | ||

+ | * Cruz, Gerardo | ||

+ | | | ||

+ | * Fette, Nicholas | ||

+ | * Li, Na | ||

+ | * Nair, Jayakrishnan | ||

+ | * Nguyen, Nam | ||

+ | * Richards, Andy | ||

+ | * Sharan, Rangoli | ||

+ | * Zhon, Cheng Shan | ||

+ | |} | ||

+ | </blockquote> | ||

=== Section 5: Off Schedule === | === Section 5: Off Schedule === | ||

This section will be held at on Fridays at 8PM in 214 Steele. It will focus on engineering applications of feedback and control and provide brief introductions to some application topics that may not be covered in class. TA: George Hines | This section will be held at on Fridays at 8PM in 214 Steele. It will focus on engineering applications of feedback and control and provide brief introductions to some application topics that may not be covered in class. TA: George Hines | ||

+ | |||

+ | Notes from week 4's recitation are available [[Media:GHH_Recitation_10_26_07.pdf|here]].<br> | ||

+ | Notes from week 6's recitation are available [[Media:GHH_Recitation_11_9_07.pdf|here]]. |

## Latest revision as of 17:03, 3 December 2007

WARNING: This page is for a previous year.See current course homepage to find most recent page available. |

CDS 101/110a | Schedule | Recitations | FAQ | AM08 (errata) |

The purpose of the recitation sections is to provide additional insight into the material for the week, including answer questions on specific topics of interests to the students in that section. The TAs leading the recitation will generally work through one problem from the homework set (same problem in each section) so that students can see what is expected on the homeworks and how the tools from the course can be applied. (Note: students must still work through and turn in the problem that the TAs work through and what you turn in must reflect your understanding of the problem.)

Recitations for CDS 101/110a will be on Fridays from 2-3 pm unless otherwise noted. Each recitation session is tuned for a slightly different audience and we have made initial assignments based on the course you are taking, the option you are in, and your class standing (So, Jr, Sr, G1, G2, etc).

### Section 1: Feedback and Control in Nature

This section is designed for students interested in the application of ideas from feedback and control to systems in nature. It is also suitable for students who do not have lots of prior coursework in linear algebra, ordinary differential equations or complex variables. All students in CDS 101 are initially assigned to this section.

TA:Luis Soto

Location:110 STL

- Rebecca Barter
- Arkya Dhar
- Stephan Duewel

- Alberto Izarraraz
- Lauren LeBon
- Ophelia Venturelli

### Section 2: Ae/ME

This section is intended for students who are interested in the application of feedback and control to mechanical and electro-mechanical systems such as airplanes, cars, robots, etc.

TA:Sawyer Fuller

Location:214 STL

- Balakrishnam, Karthik
- Bozorg-Grayeli, Elah
- Chan, Derek
- Coralic, Vedran
- Cui, Shifu
- Elzinga, Michael
- Feldman, Matthew S.
- Grossman, Marc
- Gutschick, David
- Haderlein, Peter
- Heltsley, Drew
- Hires, Bryan

- Kramer, Nick
- Kwa, Timothy
- Liang, Joe
- Man, Han Bin
- Merfeld, Max
- Miller, Madeline
- Paulos, Jimmy
- Roa, Mario
- Sheng, Jing
- Stroup, Adrianne
- Winiarz, Christine

### Section 3: Ae/ME/EE

TA:Julia Braman

Location:206 TOM

- Arroyo, Jennifer
- Bowers, Steven
- Burt, Jason
- Chen, Jay
- Fuentes Hierro, Manuel
- Grogan, Robert
- Jiang, Michelle
- Ko, Huaising Cindy
- Leichty, John
- Littlepage, Kelly
- Liu, Annie

- Liu, Qing
- Pallett, Elliott
- Pantel, Erica
- Spink, Torrey
- Thai, Daniel
- Ueno, Makoto
- Wagner, Glenn
- Wang, Yingying
- Wierman, Matthew
- Wu, Min-Hao
- Zhang, Sebastian

### Section 4: Theory

This section is intended for more advanced students who would like a more theoretical description of some of the tools of the class. This section will not go through a problem from the homework in much detail, but will instead discuss more advanced approaches to the topics being considered for that week.

- Notes for the recitation of Friday, November 9.
- Notes for the recitation of Friday, November 16.
- Notes for the recitation of Friday, November 30.

TA:Elisa Franco

Location:102 Steele

- Best, Melissa
- Bourel, Alexis
- Carson, Vanessa
- Cayco Gajic, Natasha
- Cho, Angela
- Chen, Kevin
- Cruz, Gerardo

- Fette, Nicholas
- Li, Na
- Nair, Jayakrishnan
- Nguyen, Nam
- Richards, Andy
- Sharan, Rangoli
- Zhon, Cheng Shan

### Section 5: Off Schedule

This section will be held at on Fridays at 8PM in 214 Steele. It will focus on engineering applications of feedback and control and provide brief introductions to some application topics that may not be covered in class. TA: George Hines

Notes from week 4's recitation are available here.

Notes from week 6's recitation are available here.