Ning Cai, Jian-Xiang Xi, and Yi-Sheng Zhong
[1] N.A. Lynch, Distributed algorithms (San Mateo, CA: MorganKaufmann, 1997). [2] R. Olfati-Saber & R.M. Murray, Consensus problems in networks of agents with switching topology and time-delays, IEEETrans. Autom. Control, 49 (9), 2004, 1520–1533. [3] W. Ren & R.W. Beard, Consensus seeking in multiagentsystems under dynamically changing interaction topologies,IEEE Transactions on Automatic Control, 50 (5), 2005, 655–661. [4] L. Moreau, Stability of multiagent systems with time-dependentcommunication links, IEEE Transactions on Automatic Con-trol, 50 (3), 2005, 169–182. [5] F. Xiao & L. Wang, Consensus problems for high-dimensionalmulti-agent systems, IET Control Theory and Applications,1 (3), 2007, 830–837. [6] J. Wang, D. Cheng, & X. Hu, Consensus of multi-agent lineardynamic systems, Asian Journal Control, 10, 2008, 144–155. [7] Z. Li, Z. Duan, & L. Huang, Consensus of multi-agent systemsand synchronization of complex networks: a unified viewpoint,IEEE Transactions on Circuit Systems-I, 57 (1), 2010, 213–224. [8] N. Cai, J.-X. Xi, & Y.-S. Zhong, Swarm stability of high orderLTI swarm systems, IET Control Theory and Applications,5 (2), 2011, 402–408. [9] N. Cai, J.-X. Xi, & Y.-S. Zhong, Necessary and sufficientconditions for asymptotic swarm stability of high order swarmsystems, Proc. IEEE Int. Conf. Control Autom., Xiamen,China, 2010, 1870–1875. [10] J.-X. Xi, N. Cai, & Y.-S. Zhong, Consensus problems forhigh-order linear time-invariant swarm systems, Physica A,389 (24), 2010, 5619–5627. [11] W. Ren, Consensus based formation control strategies formulti-vehicle systems, Proc. Am. Control Conf., Minneapolis,MN, USA, 2006. [12] W. Ren & E.M. Atkins, Distributed multi-vehicle coordinatedcontrol via local information exchange, International Journalof Robust and Nonlinear Control, 17, 2007, 1002–1033. [13] N. Chopra & M.W. Spong, Passivity-based control of multi-agent systems, in S. Kawamura & M. Svinin (Eds), Advances inrobot control: from everyday physics to human-like movements(Berlin: Springer-Verlag, 2006), 107–134. [14] C. Godsil & G. Royle, Algebraic graph theory (New York:Springer, 2000). [15] V. Gazi & K.M. Passino, Stability analysis of swarms, IEEETransactions on Automatic Control, 48 (4), 2003, 692–697. [16] R.M. Zazworsky & H.K. Knudsen, Controllability and observ-ability of linear time-invariant compartmental models, IEEETransactions on Automatic Control, 23 (5), 1978, 872–877. [17] S. Ma, S. Hackwood, & G. Beni, Multi-agent supporting sys-tems (MASS): control with centralized estimator of distur-bance, Proc. IEEE/RSJ/GI Int. Conf. Intelligent Robots andSystems, Munich, Germany, 1994, 679–686. [18] K. Jin & M.M. Larrondo-Petrie, Partially asynchronous dis-tributed algorithms for 2-dimensional multi-agent supportingsystems, Proc. IEEE Int. Symp. Intelligent Control, 1996,236–241. [19] F. Fahimi, S.V.S. Rineesh, & C. Nataraj, Formation controllersfor underactuated surface vessels and zero dynamics stability,Control and Intelligent Systems, 36 (3), 2008, 277–287. [20] S.R. Ranatunga & S.P. Kumarawadu, Cooperatively controlledcollision evasive emergency manoeuvres, Control and IntelligentSystems, 36 (4), 2008, 330–339. [21] M.-C. Pai, Robust tracking and model following of time-delaysystems, Control and Intelligent Systems, 37 (3), 2009, 135–143. [22] M. Saffarian & F. Fahimi, A model predictive framework forautonomous 3D formation flight of helicopter groups, Controland Intelligent Systems, 37 (4), 2009, 220–226.
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