Difference between revisions of "Supplement: Optimization-Based Control"
Jump to navigation
Jump to search
Line 58: | Line 58: | ||
** Implementation in Pytyhon | ** Implementation in Pytyhon | ||
** Application to a Vectored Thrust Aircraft | ** Application to a Vectored Thrust Aircraft | ||
− | * {{OBC pdf|Ch 7 - Sensor Fusion|obc-fusion| | + | * {{OBC pdf|Ch 7 - Sensor Fusion|obc-fusion|23Feb2023}} |
** Discrete-Time Stochastic Systems | ** Discrete-Time Stochastic Systems | ||
** Kalman Filters in Discrete Time | ** Kalman Filters in Discrete Time | ||
** Predictor-Corrector Form | ** Predictor-Corrector Form | ||
** Sensor Fusion | ** Sensor Fusion | ||
− | ** | + | ** Implementation in Python: {{OBC notebook|fusion-kincar}}, {{OBC python|kincar.py}} |
** Additional Topics | ** Additional Topics | ||
* {{OBC pdf|Bibliography and Index|obc-backmatter|20Feb2023}} | * {{OBC pdf|Bibliography and Index|obc-backmatter|20Feb2023}} | ||
|} | |} |
Revision as of 06:27, 24 February 2023
|
These notes serve as a supplement to Feedback Systems by Åström and Murray and expand on some of the topics introduced there. Our focus is on the use of optimization-based methods for control, including optimal control theory, receding horizon control, and Kalman filtering. Each chapter is intended to be a standalone reference for advanced topics that are introduced in Feedback Systems.
Note: Permission is granted to download and print a copy for individual use, but this material may not be reproduced, in whole or in part, without written consent from the author.
News (archive)
- Jan-Feb 2023: updated versions of Chapters 2-7 (version 2.3x) posted roughly every week
- 31 Dec 2022: posted Jupyter notebooks for Chapter 1 (intro to python-control)
- 29 Dec 2022: added new Chapter 1 (introduction) and starting to post updates for v2.3
Contents
|
|