Difference between revisions of "EECI 2012: Receding Horizon Temporal Logic Planning"

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The first part of this lecture introduces the receding horizon temporal logic planning. Introductory material on high computational complexity of reactive control protocol synthesis is followed by the statement and discussion of a main result and a small example. We discuss implementation details, further extensions, and a hierarchical control structure that utilizes the proposed receding horizon temporal logic planning procedure. In the second part, we present some of our recent results on the compositional synthesis of distributed, reactive control protocols.
 
The first part of this lecture introduces the receding horizon temporal logic planning. Introductory material on high computational complexity of reactive control protocol synthesis is followed by the statement and discussion of a main result and a small example. We discuss implementation details, further extensions, and a hierarchical control structure that utilizes the proposed receding horizon temporal logic planning procedure. In the second part, we present some of our recent results on the compositional synthesis of distributed, reactive control protocols.
 
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==  Lecture Materials ==
 
==  Lecture Materials ==
* Lecture slides: [http://www.cds.caltech.edu/~utopcu/EECI2012/L8_rhtlp_18May12.pdf Receding Horizon Temporal Logic Planning and Compositional Synthesis]
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* Lecture slides: [http://www.cds.caltech.edu/~murray/courses/eeci-sp12/L8_rhtlp-18May12.pdf Receding Horizon Temporal Logic Planning and Compositional Synthesis]
  
 
== Further Reading and Additional Information ==
 
== Further Reading and Additional Information ==
* <p>[http://www.cds.caltech.edu/~utopcu/images//4/4d/WTM-itac10R.pdf Receding horizon temporal logic planning],T. Wongpiromsarn, U. Topcu, and R. Murray, submitted to IEEE Transactions on Automatic Control, 2010.  Details on the receding horizon temporal logic planning.  </p>
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* <p>[http://www.cds.caltech.edu/~utopcu/images//4/4d/WTM-itac10R.pdf Receding horizon temporal logic planning],T. Wongpiromsarn, U. Topcu, and R. Murray, submitted to IEEE Transactions on Automatic Control, 2012 (to appear).  Details on the receding horizon temporal logic planning.  </p>
 
* <p>[http://www.cds.caltech.edu/~utopcu/images//0/0a/OTM-cdc11.pdf Distributed power allocation for vehicle management systems], N. Ozay, U. Topcu, and R. Murray, CDC 2011.  Details on compositional synthesis.  </p>
 
* <p>[http://www.cds.caltech.edu/~utopcu/images//0/0a/OTM-cdc11.pdf Distributed power allocation for vehicle management systems], N. Ozay, U. Topcu, and R. Murray, CDC 2011.  Details on compositional synthesis.  </p>
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* <p>[http://www.cds.caltech.edu/~necmiye/pubs/iccps11_longer_version.pdf Distributed synthesis of control protocols for smart camera networks], N. Ozay, UT, T. Wongpiromsarn, and R. Murray, International Conference on Cyber-Physical Systems, 2011. Details on the distributed synthesis procedure covered in this lecture. </p>

Latest revision as of 07:33, 18 May 2012

Prev: Computer Session: TuLiP Course home Next: Extensions

The first part of this lecture introduces the receding horizon temporal logic planning. Introductory material on high computational complexity of reactive control protocol synthesis is followed by the statement and discussion of a main result and a small example. We discuss implementation details, further extensions, and a hierarchical control structure that utilizes the proposed receding horizon temporal logic planning procedure. In the second part, we present some of our recent results on the compositional synthesis of distributed, reactive control protocols.

Lecture Materials

Further Reading and Additional Information