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Coordination of networked systems on digraphs with multiple leaders via pinning control

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  • Gang Chen
  • Frank Lewis

Abstract

It is well known that achieving consensus among a group of multi-vehicle systems by local distributed control is feasible if and only if all nodes in the communication digraph are reachable from a single (root) node. In this article, we take into account a more general case that the communication digraph of the networked multi-vehicle systems is weakly connected and has two or more zero-in-degree and strongly connected subgraphs, i.e. there are two or more leader groups. Based on the pinning control strategy, the feasibility problem of achieving second-order controlled consensus is studied. At first, a necessary and sufficient condition is given when the topology is fixed. Then the method to design the controller and the rule to choose the pinned vehicles are discussed. The proposed approach allows us to extend several existing results for undirected graphs to directed balanced graphs. A sufficient condition is proposed in the case where the coupling topology is variable. As an illustrative example, a second-order controlled consensus scheme is applied to coordinate the movement of networked multiple mobile robots.

Suggested Citation

  • Gang Chen & Frank Lewis, 2011. "Coordination of networked systems on digraphs with multiple leaders via pinning control," International Journal of Systems Science, Taylor & Francis Journals, vol. 43(2), pages 368-384.
  • Handle: RePEc:taf:tsysxx:v:43:y:2011:i:2:p:368-384
    DOI: 10.1080/00207721.2010.502598
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