Reaching a consensus in a dynamically changing environment - convergence rates, measurement delays and asynchronous events

Date

2008

Authors

Cao, Ming
Morse, A Stephen
Anderson, Brian

Journal Title

Journal ISSN

Volume Title

Publisher

SIAM Publications

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.

Description

Keywords

Keywords: Asynchronism; Convergence rates; Cooperative control; Delays; Switched systems; Graph theory; Markov processes; Mobile agents; Optimal control systems; Topology; Autonomous agents Asynchronism; Convergence rates; Cooperative control; Delays; Graph theory; Switched systems

Citation

Source

Siam Journal on Control and Optimization

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31