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Connectivity Preserving Formation Stabilization in an Obstacle-Cluttered Environment in the Presence of Time-Varying Communication Delays

Savvas G. Loizou, Dario Giuseppe Lui, Alberto Petrillo, Stefania Santini

2021IEEE Transactions on Automatic Control51 citationsDOIOpen Access PDF

Abstract

This technical article addresses the formation stabilization problem for multiagent systems (MASs) composed of dynamical agents moving within an obstacle-cluttered environment and sharing information via nonideal wireless communication networks. A novel distributed cooperative navigation function based control strategy is proposed, which drives the MAS to a desired formation without any collision while counteracting the presence of unavoidable communication impairments originated by the wireless network. By recasting the formation stabilization problem into a consensus one and by combining the Lyapunov stability theory with Halanay’s lemma, uniformly ultimately bounded stability of the whole delayed closed-loop system is proved. In the special case of an obstacle-free environment, our approach guarantees exponential stability of the closed-loop networked system. The stability analysis also provides an estimation of the delay upper bound and allows to evaluate the stability margins with respect to the latencies that can be observed in practical application scenarios. Theoretical derivations are verified through nontrivial simulations.

Topics & Concepts

Control theory (sociology)Lyapunov functionObstacleStability (learning theory)Computer scienceObstacle avoidanceBounded functionExponential stabilityLyapunov stabilityTrajectoryLemma (botany)Upper and lower boundsWirelessCollision avoidanceStability theoryFunction (biology)Distributed computingCollisionControl (management)MathematicsMobile robotArtificial intelligenceRobotEcologyTelecommunicationsAstronomyQuantum mechanicsLawPolitical scienceNonlinear systemMachine learningComputer securityEvolutionary biologyBiologyPoaceaePhysicsMathematical analysisDistributed Control Multi-Agent SystemsModular Robots and Swarm IntelligenceSecurity in Wireless Sensor Networks