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International Journal of Systems Science Volume 48, 2017 - Issue 1
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Original Articles

Distributed tracking of a non-minimally rigid formation for multi-agent systems

Lu BaiDepartment of Automation, Xiamen University, Xiamen Fujian, P. R. ChinaView further author information
,
Fei ChenDepartment of Automation, Xiamen University, Xiamen Fujian, P. R. ChinaCorrespondence[email protected]
View further author information
&
Weiyao LanDepartment of Automation, Xiamen University, Xiamen Fujian, P. R. ChinaView further author information
Pages 161-170 | Received 27 Aug 2015, Accepted 10 Mar 2016, Published online: 06 Apr 2016

References

  • Abdollahi, F., & Rezaee, H. (2014). A decentralized cooperative control scheme with obstacle avoidance for a team of mobile robots. IEEE Transactions on Industrial Electronics, 61(1), 347–354.
  • Anderson, B., Yu, C., Fidan, B., & Hendrickx, J. (2008). Rigid graph control architectures for autonomous formations. IEEE Control Systems Magazine, 28(6), 48–63.
  • Asimow, L., & Roth, B. (1978). The rigidity of graphs. Transactions of the American Mathematical Society, 245, 279–289.
  • Asimow, L., & Roth, B. (1979). The rigidity of graphs ii. Journal of Mathematical Analysis and Applications, 68(1), 171–190.
  • Bai, L., Chen, F., & Lan, W. (2015). Rigidity based formation tracking for multi-agent networks. Chinese Physics B, 24(9). doi:10.1088/1674-1056/24/9/090206
  • Cai, X., de Queiroz, M. (2013). Multi-agent formation maintenance and target tracking. In Proceedings of the IEEE American Control Conference (pp. 2521–2526). Washington, DC.
  • Cao, M., Morse, A., Yu, C., Anderson, B., & Dasgupta, S. (2011). Maintaining a directed, triangular formation of mobile autonomous agents. Communications in Information and Systems, 11(1), 1–16.
  • Cao, Y., Ren, W., & Meng, Z. (2010). Decentralized finite-time sliding mode estimators and their applications in decentralized finite-time formation tracking. Systems & Control Letters, 59(9), 522–529.
  • Carr, J. (1981). Applications of centre manifold theory (Vol. 35). New York, NY: Springer-Verlag.
  • Defoort, M., Floquet, T., Kokosy, A., & Perruquetti, W. (2008). Sliding-mode formation control for cooperative autonomous mobile robots. IEEE Transactions on Industrial Electronics, 55(11), 3944–3953.
  • Dörfler, F., & Francis, B. (2009). Formation control of autonomous robots based on cooperative behavior. InProceedings of the 2009 European Control Conference (pp. 2432–2437). Budapest.
  • Dörfler, F., & Francis, B. (2010). Geometric analysis of the formation problem for autonomous robots. IEEE Transactions on Automatic Control, 55(10), 2379–2384.
  • Fidan, B., Gazi, V., Zhai, S., Cen, N., & Karatas, E. (2013). Single-view distance-estimation-based formation control of robotic swarms. IEEE Transactions on Industrial Electronics, 60(12), 5781–5791.
  • Krick, L., Broucke, M.E., & Francis, B.A. (2009). Stabilisation of infinitesimally rigid formations of multi-robot networks. International Journal of Control, 82(3), 423–439.
  • Meng, D., Jia, Y., Du, J., & Zhang, J. (2014). On iterative learning algorithms for the formation control of nonlinear multi-agent systems. Automatica, 50(1), 291–295.
  • Meng, D., Jia, Y., Du, J., & Zhang, J. (2015). High-precision formation control of nonlinear multi-agent systems with switching topologies: A learning approach. International Journal of Robust and Nonlinear Control, 25(13), 1993–2018.
  • Meng, D., & Moore, K.L. (2016). Learning to cooperate: Networks of formation agents with switching topologies. Automatica, 64, 278–293.
  • Mei, J., Ren, W., & Ma, G. (2011). Distributed coordinated tracking with a dynamic leader for multiple Euler–Llagrange systems. IEEE Transactions on Automatic Control, 56(6), 1415–1421.
  • Oh, K.K., & Ahn, H.S. (2011a). Formation control of mobile agents based on inter-agent distance dynamics. Automatica, 47(10), 2306–2312.
  • Oh, K.K., & Ahn, H.S. (2011b). Distance-based control of cycle-free persistent formations. In Proceedings of IEEE International Symposium on Intelligent Control(pp. 816–821). Denver, CO.
  • Oh, K.K., Park, M.C., Ahn, & H.S. (2015). A survey of multi-agent formation control. Automatica, 53, 424–440.
  • Paden, B.E., & Sastry, S.S. (1987). A calculus for computing Filippov's differential inclusion with application to the variable structure control of robot manipulators. IEEE Transactions on Circuits and Systems, 34(1), 73–82.
  • Tapia, D.I., De Paz, J.F., Rodríguez, S., Bajo, J., & Corchado, J.M. (2008). Multi-agent system for security control on industrial environments. International Transactions on System Science and Applications Journal, 4(3), 222–226.
  • Wen, G., Duan, Z., Zhao, Y., Yu, W., & Cao, J. (2014). Robust containment tracking of uncertain linear multi-agent systems: a non-smooth control approach. International Journal of Control, 87(12), 2522–2534.
  • Wen, G., Duan, Z., & Yu, W. (2014). Consensus tracking of multi-agent systems with Lipschitz-type node dynamics and switching topologies. IEEE Transactions on Circuits and Systems I: Regular Papers, 61(2), 499–511.
  • Wiggins, S. (1990). Introduction to applied nonlinear dynamical systems and chaos (Vol. 2). New York, NY: Springer-Verlag.

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