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Switching-Based Distributed Adaptive Secure Formation Control for Mobile Robots With Denial-of-Service Attacks

Zhen Han, Wei Wang, Maopeng Ran, Changyun Wen, Lei Wang

2024IEEE Transactions on Systems Man and Cybernetics Systems14 citationsDOI

Abstract

In this article, the distributed adaptive secure formation control problem for mobile robots is considered. The communication channels among robots are undirected and suffer from denial-of-service (DoS) attacks. Only part of the robots can access the reference trajectories. To mitigate attack effects on the formation performance, a switching strategy for communication channels is designed. Besides, an adaptive secure control scheme is proposed with a distributed adaptive trajectory estimator and an adaptive tracking controller for each robot. In the estimator, damping and normalizing terms are introduced to alleviate attack effects on the system performance. Moreover, these terms can also remove the constraints on the lower bounded dwell time of switching topologies. By applying the backstepping technique, an adaptive tracking control scheme is proposed for robots with uncertainties to track estimator states. According to the proposed secure control scheme, a stability condition is provided, such that the boundedness of formation errors can be guaranteed under DoS attacks and arbitrary switching dwell time. Experimental results are given to illustrate the effectiveness of the proposed secure control scheme.

Topics & Concepts

Denial-of-service attackComputer scienceController (irrigation)BacksteppingAdaptive controlControl theory (sociology)RobotMobile robotEstimatorDwell timeScheme (mathematics)Network topologyTrajectoryBounded functionControl (management)Computer networkMathematicsArtificial intelligenceThe InternetPhysicsWorld Wide WebBiologyAgronomyMedicineClinical psychologyStatisticsAstronomyMathematical analysisDistributed Control Multi-Agent SystemsAdaptive Control of Nonlinear SystemsMobile Ad Hoc Networks
Switching-Based Distributed Adaptive Secure Formation Control for Mobile Robots With Denial-of-Service Attacks | Litcius