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FLOCKING OF MULTI-AGENT DYNAMIC SYSTEMS WITH GUARANTEED GROUP CONNECTIVITY 被引量:1

FLOCKING OF MULTI-AGENT DYNAMIC SYSTEMS WITH GUARANTEED GROUP CONNECTIVITY
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摘要 This paper investigates distributed flocking problem where the information exchange among agents is modeled by the communication topology changing with time. Previous research on this problem establishes group stabilization by assuming that the dynamic topology is connected all the time, which however cannot be guaranteed by most proposed distributed control laws. In this paper, a distributed algorithm to distill a necessary subgraph of the initial communication topology is presented. This subgraph covers all the vertices of the communication topology and is proved to be connected as long as the initial communication topology is connected. A distributed control law is then designed to pursue the flocking motion while preserving all the edges in this subgraph. In this way, connectivity can be preserved all the time, and flocking problem is thus solved only provided the initial communication topology of multi-agent system is connected.
作者 Xiaoli LI Yugeng XI
机构地区 Department of Automation
出处 《Journal of Systems Science & Complexity》 SCIE EI CSCD 2008年第3期337-346,共10页 系统科学与复杂性学报(英文版)
基金 the National Natural Science Foundation of China under Grant No.60504026 and No.60674041 the National High Technology Project under Grant No.2006AA04Z173
关键词 CONNECTIVITY distributed control FLOCKING multi-agent system 连通性 分布式控制 多Agent系统 植绒花纹 信息交换
分类号 TP273 [自动化与计算机技术—检测技术与自动化装置] TS103 [轻工技术与工程—纺织工程]
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参考文献11

  • 1C. Reynolds, Flocks, birds and schools: A distributed behavioral model, Computer Graphics, 1987, 21(4): 25-34.
  • 2T. Vicsek, A.Czirok, E. B. Jacob, I. Cohen, and O. Schlchet, Novel type of phase transitions in a system of self-driven particles, Physical Review Letters, 1995, 75(6): 1226-1229.
  • 3R. Olfati-Saber, Flocking for multi-agent dynamic systems: Algorithms and theory, IEEE Trans. Automatic Control, 2006, 51(3): 401-420.
  • 4H. G. Tanner, A. Jadbabaie, and G. J. Pappas, Flocking in fixed and switching networks, IEEE Trans. Automatic Control, 2007, 52(5): 863-868.
  • 5D. P. Spanos and R. M. Murray, Robust connectivity of networked vehicles, in Proceedings of IEEE Conf. Decision Control, 2004, 2893-2898.
  • 6H. Ando, Y. Osuzuki, and M. Yamashita, Distributed memoryless point convergence algorithm for mobile robots with limited visibility, IEEE Trans. Robotics and Automation, 1999, 15(5): 818-828.
  • 7J. Cortes, S. Martinez, and F. Bullo, Robust rendezvous for mobile autonomous agent via proximity graphs in arbitrary dimensions, IEEE Trans. Robotics and Automation, 2006, 51(8): 1289-1298.
  • 8G. Notarstefano, K. Savla, F. Bullo, and A. Jadbabaie, Maintaining limited-range connectivity among second-order agents, in Proceedings of American Control Conf., 2006, 2124-2129.
  • 9M. Ji and M. Egerstedt, Connectedness preserving distributed coordination control over dynamic graphs, in Proceedings of American Control Conf., 2005, 93-98.
  • 10M. Ji and M. Egerstedt, Distributed formation control while preserving connectedness, in Proceedings of IEEE Conf, Decision Control, 2006, 5962-5967.

引证文献1

Journal of Systems Science & Complexity
2008年 第3期

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