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Resilient Cooperative Control for Networked Lagrangian Systems Against DoS Attacks

Xiaolei Li, Changyun Wen, Ci Chen

2020IEEE Transactions on Cybernetics50 citationsDOI

Abstract

In this article, we study the distributed resilient cooperative control problem for directed networked Lagrangian systems under denial-of-service (DoS) attacks. The DoS attacks will block the communication channels between the agents. Compared with the existing methods for the linear networked systems, the considered nonlinear networked Lagrangian systems with asymmetric channels under DoS attacks are more challenging and still not well explored. In order to solve this problem, a novel resilient cooperative control scheme is proposed by using the sampling control approach. Sufficient conditions are first derived in the absence of DoS attacks according to a multidimensional small-gain scheme. Then, in the presence of DoS attacks, the proposed resilient scheme works in a switching manner. Inspired by multidimensional small-gain techniques, the Lyapunov approach is used to analyze the closed-loop system, which enables us to establish sufficient stability conditions for the control gains in terms of the duration and frequency of the DoS attacks.

Topics & Concepts

Denial-of-service attackComputer scienceLagrangianScheme (mathematics)Nonlinear systemStability (learning theory)Block (permutation group theory)Control theory (sociology)Distributed computingControl systemControl (management)MathematicsEngineeringThe InternetArtificial intelligenceMachine learningWorld Wide WebMathematical analysisElectrical engineeringMathematical physicsQuantum mechanicsPhysicsGeometrySmart Grid Security and ResilienceDistributed Control Multi-Agent SystemsExtremum Seeking Control Systems
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