CDS 110b, Winter 2014- Course Schedule: Difference between revisions
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===== [[CDS110b: Stochastic Systems|Stochastic Systems]] ===== | ===== [[CDS110b: Stochastic Systems|Stochastic Systems]] ===== | ||
|- | |- | ||
| | | 14 Jan (T) | ||
| Random Processes | | Random Processes | ||
| rowspan=2 | Friedland, Ch 10 | | rowspan=2 | Friedland, Ch 10 | ||
| rowspan=3 align=center | {{cds110b-wi07 pdfs|hw2.pdf|HW 2}} {{cds110b-wi07 pdfs|cds110b_hw2sol.pdf|solns}} | | rowspan=3 align=center | {{cds110b-wi07 pdfs|hw2.pdf|HW 2}} {{cds110b-wi07 pdfs|cds110b_hw2sol.pdf|solns}} | ||
|- | |- | ||
| | | 16 Jan* (Th) | ||
| Stochastic Systems | | Stochastic Systems | ||
|- | |- | ||
Revision as of 19:13, 8 January 2014
| CDS 110b | Schedule | Course Material |
This page contains the course schedule for CDS 110b. The bold links for each week take you to a page that contains the a summary of the lectures for that week plus links to all course handouts.
| Week | Date | Topic | Reading | Homework |
| 1 |
State Estimation | |||
| 7 Jan (T) | Course overview | |||
| 9 Jan (Th) | State estimation | AM, Ch 6 | ||
| 2 |
Stochastic Systems | |||
| 14 Jan (T) | Random Processes | Friedland, Ch 10 | HW 2 solns | |
| 16 Jan* (Th) | Stochastic Systems | |||
| 12 Jan (F) | Course project meeting | |||
| 3 |
Kalman Filters | |||
| 15 Jan (M) | Martin Luther King Holiday | HW #3 solns | ||
| 17 Jan (W) | Kalman Filtering | |||
| 19 Jan (F) | Linear Quadratic Estimators | |||
| 4 |
Sensor Fusion | |||
| 22 Jan (M) | Discrete Time Kalman Filter | HW #4 solns | ||
| 24 Jan (W) | Sensor Fusion via Kalman Filtering | |||
| 26 Jan (F) | Course project meeting | |||
| 5 |
Nonlinear, Non-Gaussian Extensions | |||
| 29 Jan (M) | Moving horizon estimation and applications | Midterm solns | ||
| 31 Jan* (W) | Midterm exam review | |||
| 2 Feb* (F) | No class | |||
| 6 |
Linear Quadratic Optimal Control | |||
| 5 Feb* (M) | No class | HW #5 solns | ||
| 7 Feb* (W) | Maximum principle | |||
| 9 Feb (F) | Linear quadratic regulators | |||
| 7 |
Two Degree of Freedom Control Design | |||
| 12 Feb (M) | Trajectory Tracking and Gain Scheduling | HW #6 solns | ||
| 14 Feb (W) | Differential Flatness | |||
| 16 Feb (F) | Recitation | |||
| 8 |
Receding Horizon Optimal Control | |||
| 19 Feb (M) | President's Day Holiday | HW #7solns | ||
| 21 Feb (W) | RHC problem formulation | |||
| 23 Feb (F) | RHC design considerations | |||
| 9 |
Robust Stability | |||
| 26 Feb* (M) | No class (recitation) | HW #8solns | ||
| 28 Feb (W) | Modeling Uncertainty | |||
| 2 Mar (F) | Robuts Stability | |||
| 10 |
Design Examples | |||
| 5 Mar (M) | No class (recitation) | Final | ||
| 7 Mar (W) | Networked control for autonomous systems | |||
| 8 Mar* (F) | Final exam review | |||
