EECI09: Cooperative control: Difference between revisions

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{{eeci-sp09 header|prev=Distributed control|next=Estimation over networks}}
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One paragraph overview of the lecture
In this lecture we present a survey of recent research in cooperative control of multivehicle systems, using a common mathematical framework to allow different methods to be described in a unified way. The survey has three primary parts: an overview of current applications of cooperative control, a summary of some of the key technical approaches that have been explored, and a description of some possible future directions for research. Specific technical areas that are discussed include distributed receding horizon control, cooperative tasking and spatiotemporal planning.


==  Lecture Materials ==
==  Lecture Materials ==
* Lecture slides: {{eeci-sp09 pdf|Ln_topic.pdf|Title}}
* Lecture slides: {{eeci-sp09 pdf|L6_coopctrl.pdf|Cooperative control systems}}
* Links to anything else that is handed out in the lecture


== Further Reading ==
== Further Reading ==
* <p>[http://www.cds.caltech.edu/~murray/cdspanel Control in an Information Rich World], R. M. Murray (ed).  SIAM, 2003.  This book provides a high level description of some of the research challenges and opportunities in the field of control.  The executive summary (Section 1) and the application sections on "Information and Networks" and "Robotics and Intelligent Machines" (Section 3.2 and 3.3) are particularly relevant.</p>
* <p>R. M. Murray, “Recent Research in Cooperative Control of Multi-Vehicle Systems”, ''J. Guidance, Control and Dynamics'', 2007.</p>
* <p>Second paper</p>
* <p>J. A. Fax and R. M. Murray, "Information flow and cooperative control of vehicle formations", ''IEEE T. Automatic Control'', 49(9):1465-1476, 2004.</p>
* <p>W. B. Dunbar and R. M. Murray, "Distributed receding horizon control for multi-vehicle formation stabilization".  ''Automatica'', 42(4):549--558, 2006.</p>


==  Additional Information ==  
==  Additional Information ==
* [http://home.cwru.edu/ncs/ Networked Control Systems Repository] (M. Branicky and S. Phillipps)
* [[EECI08: Formation Control in Multi-Agent Systems|2008 lecture page]]
* [[EECI08: Introduction to Networked Control Systems|2008 lecture page]]
* Additional links to external information

Latest revision as of 08:09, 18 March 2009

Prev: Distributed control Course home Next: Distributed estimation

In this lecture we present a survey of recent research in cooperative control of multivehicle systems, using a common mathematical framework to allow different methods to be described in a unified way. The survey has three primary parts: an overview of current applications of cooperative control, a summary of some of the key technical approaches that have been explored, and a description of some possible future directions for research. Specific technical areas that are discussed include distributed receding horizon control, cooperative tasking and spatiotemporal planning.

Lecture Materials

Further Reading

  • R. M. Murray, “Recent Research in Cooperative Control of Multi-Vehicle Systems”, J. Guidance, Control and Dynamics, 2007.

  • J. A. Fax and R. M. Murray, "Information flow and cooperative control of vehicle formations", IEEE T. Automatic Control, 49(9):1465-1476, 2004.

  • W. B. Dunbar and R. M. Murray, "Distributed receding horizon control for multi-vehicle formation stabilization". Automatica, 42(4):549--558, 2006.

Additional Information

Retrieved from "https://murray.cds.caltech.edu/index.php?title=EECI09:_Cooperative_control&oldid=9214"