EECI08: Formation Control in Multi-Agent Systems: Difference between revisions

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This lecture describes how to perform estimation and control in a distributed setting.
In this lecture we introduce the problem of cooperative control of a multi-agent system.  As an initial problem,
we consider the problem of cooperation among a collection of vehicles performing a shared task using intervehicle communication to coordinate their actions.  We prove a Nyquist criterion that uses the eigenvalues of the graph Laplacian matrix to determine the effect of the communication topology on formation stability.  We also summarize recent extensions to this work using distributed receding horizon control.


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== Lecture Materials ==
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* Lecture slides: {{eeci-sp08 pdf|L10_coopctrl.pdf|Cooperative Control}}
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==== Outline ====
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<li></li>
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====  Lecture Materials ====
== Further Reading ==
* Lecture slides: {{eeci-sp08 pdf placeholder|L7_pbc.pdf|Distributed Estimation and Control}}
* <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>
* Lecture notes: {{ncsbook|fusion|Chapter 6 - Distributed Estimation and Control}}
* <p>R. M. Murray, “Recent Research in Cooperative Control of Multi-Vehicle Systems”, ''J. Guidance, Control and Dynamics'', 2007.</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 ====
 
|}
 
==== Further Reading ====

Latest revision as of 20:17, 1 March 2009

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In this lecture we introduce the problem of cooperative control of a multi-agent system. As an initial problem, we consider the problem of cooperation among a collection of vehicles performing a shared task using intervehicle communication to coordinate their actions. We prove a Nyquist criterion that uses the eigenvalues of the graph Laplacian matrix to determine the effect of the communication topology on formation stability. We also summarize recent extensions to this work using distributed receding horizon control.

Lecture Materials

Further Reading

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

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

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

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