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Consensus Algorithm for Multiagent Systems With Nonuniform Communication Delays and Its Application to Nonholonomic Robot Rendezvous

Gang Wang

2022IEEE Transactions on Control of Network Systems29 citationsDOI

Abstract

This article presents new distributed consensus algorithms for higher order multiagent systems with mismatched uncertainties on general directed graphs. The developed algorithm enjoys the intriguing attribute of accommodating nonuniform communication delays and relies on minimal information from the neighboring agents, namely, their output states. Specifically, by exploiting the interplay of tools from the Laplace transformation and algebraic graph theory, we demonstrate that with the developed distributed algorithm, all agents reach consensus, while the boundedness of all closed-loop signals remains unchanged. In addition, we apply the developed algorithm to tackle the rendezvous control problem for networked nonholonomic mobile robots with unknown dynamic parameters. We also show that by properly tuning the design parameters, the rendezvous errors of the entire system can be made as small as desired. Comparative simulations are performed to illustrate and validate the algorithms.

Topics & Concepts

RendezvousNonholonomic systemAlgebraic graph theoryComputer scienceMulti-agent systemDirected graphAlgorithmMobile robotTransformation (genetics)GraphDistributed algorithmConsensus algorithmGraph theoryRobotTheory of computationControl theory (sociology)Distributed computingTheoretical computer scienceMathematicsControl (management)Artificial intelligenceEngineeringSpacecraftBiochemistryGeneCombinatoricsChemistryAerospace engineeringDistributed Control Multi-Agent SystemsControl and Dynamics of Mobile RobotsModular Robots and Swarm Intelligence