2012
DOI: 10.1016/j.automatica.2012.05.068
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Adaptive consensus of multi-agents in networks with jointly connected topologies

Abstract: In this paper, the consensus problem of multi-agent following a leader is studied. An adaptive design method is presented for multi-agent systems with non-identical unknown nonlinear dynamics, and for a leader to be followed that is also nonlinear and unknown. By parameterizations of unknown nonlinear dynamics of all agents, a decentralized adaptive consensus algorithm is proposed in networks with jointly connected topologies by incorporating local consensus errors in addition to relative position feedback. An… Show more

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Cited by 246 publications
(170 citation statements)
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“…It is worthwhile to mention here that the leader-following consensus problem of multi-agent systems with heterogeneous unknown nonlinear dynamics was also investigated using adaptive control in [38,39] and fuzzy disturbance observer in [40], but they only consider agents with first-order dynamics. In this paper, the results in [38][39][40] were largely extended to the multi-agent systems with more general agent dynamics described by (1)- (2). Therefore, the results of this paper are expected to be a necessary complement to the consensus development of general nonlinear multi-agent systems.…”
Section: Stability Analysismentioning
confidence: 99%
“…It is worthwhile to mention here that the leader-following consensus problem of multi-agent systems with heterogeneous unknown nonlinear dynamics was also investigated using adaptive control in [38,39] and fuzzy disturbance observer in [40], but they only consider agents with first-order dynamics. In this paper, the results in [38][39][40] were largely extended to the multi-agent systems with more general agent dynamics described by (1)- (2). Therefore, the results of this paper are expected to be a necessary complement to the consensus development of general nonlinear multi-agent systems.…”
Section: Stability Analysismentioning
confidence: 99%
“…The success of the proposed control in (Li et al, 2013) relies on the symmetry in the network connection of an undirected graph. Many adaptive schemes for consensus control requires that the connection graph is undirected to achieve decentralised adaptive laws (Su, Chen, Wang and Lin, 2011;Yu and Xia, 2012;Su and Huang, 2013). For a directed connection graph, the adaptive schemes in (Das and Lewis, 2010;Zhang and Lewis, 2012) achieved consensus control at a price of sacrificing the asymptotic convergence.…”
Section: Introductionmentioning
confidence: 99%
“…There are more diverse results relating to consensus control in recent years, including adaptive control, output regulation and synchronisation, and semiglobal stability (see [5], [6], [7], for example). For adaptive control of network connected systems when the connection graph is undirected, the symmetry of the Laplacian matrix is exploited in the design of adaptive laws [8], [9], [10]. Adaptive consensus control with directed connection graphs is more challenging.…”
Section: Introductionmentioning
confidence: 99%