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Resilient Consensus for Networked Lagrangian Systems With Disturbances and DoS Attacks

Xiaolei Li, Jian‐Ge Wang

2022IEEE Transactions on Systems Man and Cybernetics Systems25 citationsDOI

Abstract

In this article, we consider the resilient consensus control problem of multiple Euler–Lagrange systems in the presence of external disturbances and denial-of-service (DoS) attacks, which have bounded duration and frequency. Unlike the most existing methods for linear multiagent systems, the strong nonlinearity, and unknown disturbances of multiple Euler–Lagrange systems make the resilient control problem under DoS attacks be more challenging and still not well explored. To this end, an adaptive control scheme is first proposed with a robust sliding mode-like term to handle the unknown bounded external disturbances. In addition, an auxiliary system is designed by using the sampled neighboring information to achieve resilience to DoS attacks. Sufficient conditions are presented by using Lyapunov and small-gain approaches. Finally, simulation results are given to verify the effectiveness of the proposed resilient consensus control approach.

Topics & Concepts

Bounded functionDenial-of-service attackControl theory (sociology)Nonlinear systemComputer scienceResilience (materials science)Term (time)Sliding mode controlMulti-agent systemMathematical optimizationControl (management)MathematicsThe InternetArtificial intelligenceMathematical analysisPhysicsWorld Wide WebQuantum mechanicsThermodynamicsDistributed Control Multi-Agent SystemsSmart Grid Security and ResilienceNeural Networks Stability and Synchronization