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Active fault-tolerant predictive control of networked systems subject to actuator faults and random communication constraints

Zhong‐Hua Pang, Cheng-Gang Xia, Jian Sun, Shuai Liu, Qing‐Long Han

2021International Journal of Control10 citationsDOI

Abstract

The fault-tolerant control problem is investigated for a linear networked system subject to an additive actuator fault as well as random network delays and packet dropouts in the backward and forward channels. To deal with the adverse effects of the actuator fault as well as those communication constraints, an active compensation scheme combining active fault-tolerant control and predictive control is proposed based on the simultaneous estimation of the system state and actuator fault. The obtained closed-loop system is a randomly switched system with bounded round-trip time delays, and the corresponding closed-loop stability condition is derived by using a switched Lyapunov approach. Simulation results for a networked DC motor system are provided to verify the proposed method.

Topics & Concepts

Control theory (sociology)ActuatorNetworked control systemNetwork packetFault (geology)Fault toleranceModel predictive controlCompensation (psychology)Telecommunications networkLyapunov functionLyapunov stabilityEngineeringComputer scienceControl systemControl engineeringControl (management)Nonlinear systemDistributed computingPsychologyTelecommunicationsSeismologyQuantum mechanicsElectrical engineeringGeologyComputer networkPhysicsPsychoanalysisArtificial intelligenceStability and Control of Uncertain SystemsDistributed Control Multi-Agent SystemsAdaptive Control of Nonlinear Systems
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