Litcius/Paper detail

Distributed Event-Triggered Fault-Tolerant Consensus Control of Multi-Agent Systems Under DoS Attacks

Chun Liu, Bin Jiang, Yang Li, Ron J. Patton

2024IEEE Transactions on Signal and Information Processing over Networks24 citationsDOIOpen Access PDF

Abstract

This study investigates the distributed fault-tolerant consensus issue of multi-agent systems subject to complicated abrupt and incipient time-varying actuator faults in physical hierarchy and aperiodic denial-of-service (DoS) attacks in networked hierarchy. Decentralized estimators are devised to estimate consecutive system states and actuator faults. A unified framework with an absolute local output-based closed-loop estimator in decentralized fault estimation design and a relative broadcasting state-based open-loop estimator in distributed event-triggered fault-tolerant consensus design is developed. Criteria of exponential consensus of the faulty multi-agent systems under DoS attacks are derived by virtue of average dwelling time and attack frequency technique. Simulations are outlined to confirm the efficacy of the proposed distributed fault-tolerant consensus control algorithm based on an event-triggered mechanism.

Topics & Concepts

Fault toleranceComputer scienceConsensusControl (management)Multi-agent systemDistributed computingEvent (particle physics)Artificial intelligencePhysicsQuantum mechanicsDistributed Control Multi-Agent SystemsDistributed systems and fault toleranceAdvanced Memory and Neural Computing