Reaching a consensus in a dynamically changing environment: Convergence rates, measurement delays, and asynchronous events

Ming Cao; A. Stephen Morse; Brian D.O. Anderson

doi:10.1137/060657029

Reaching a consensus in a dynamically changing environment: Convergence rates, measurement delays, and asynchronous events

Ming Cao^*, A. Stephen Morse, Brian D.O. Anderson

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

278 Citations (Scopus)

Abstract

This paper uses recently established properties of compositions of directed graphs together with results from the theory of nonhomogeneous Markov chains to derive worst case convergence rates for the headings of a group of mobile autonomous agents which arise in connection with the widely studied Vicsek consensus problem. The paper also uses graph-theoretic constructions to solve modified versions of the Vicsek problem in which there are measurement delays, asynchronous events, or a group leader. In all three cases the conditions under which consensus is achieved prove to be almost the same as the conditions under which consensus is achieved in the synchronous, delay-free, leaderless case.

Original language	English
Pages (from-to)	601-623
Number of pages	23
Journal	SIAM Journal on Control and Optimization
Volume	47
Issue number	2
DOIs	https://doi.org/10.1137/060657029
Publication status	Published - 2008

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abstract = "This paper uses recently established properties of compositions of directed graphs together with results from the theory of nonhomogeneous Markov chains to derive worst case convergence rates for the headings of a group of mobile autonomous agents which arise in connection with the widely studied Vicsek consensus problem. The paper also uses graph-theoretic constructions to solve modified versions of the Vicsek problem in which there are measurement delays, asynchronous events, or a group leader. In all three cases the conditions under which consensus is achieved prove to be almost the same as the conditions under which consensus is achieved in the synchronous, delay-free, leaderless case.",

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AB - This paper uses recently established properties of compositions of directed graphs together with results from the theory of nonhomogeneous Markov chains to derive worst case convergence rates for the headings of a group of mobile autonomous agents which arise in connection with the widely studied Vicsek consensus problem. The paper also uses graph-theoretic constructions to solve modified versions of the Vicsek problem in which there are measurement delays, asynchronous events, or a group leader. In all three cases the conditions under which consensus is achieved prove to be almost the same as the conditions under which consensus is achieved in the synchronous, delay-free, leaderless case.

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KW - Convergence rates

KW - Cooperative control

KW - Delays

KW - Graph theory

KW - Switched systems

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JF - SIAM Journal on Control and Optimization

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Reaching a consensus in a dynamically changing environment: Convergence rates, measurement delays, and asynchronous events

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