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FTC Design for Switched Fractional-Order Nonlinear Systems: An Application in a Permanent Magnet Synchronous Motor System

Shuai Sui, Shaocheng Tong

2021IEEE Transactions on Cybernetics42 citationsDOI

Abstract

In this article, an adaptive fault-tolerant control (FTC) method and a fractional-order dynamic surface control (DSC) algorithm are jointly proposed to deal with the stabilization problem for a class of multiple-input-multiple-output (MIMO) switched fractional-order nonlinear systems with actuator faults and arbitrary switching. In each MIMO subsystem and each switched subsystem, the neural networks (NNs) are utilized to identify the complicated unknown nonlinearities. A fractional filter DSC technology is adopted to conquer the issue of "explosion of complexity," which may occur when some functions are repeatedly derived. The common Lyapunov function method is used to restrain arbitrary switching problems in the system, and the actuator compensation technique is introduced to tackle the failure faults and bias faults in the actuators. By combining the backstepping DSC design technique and fractional-order stability theory, a novel NN adaptive switching FTC algorithm is proposed. Under the operation of the proposed algorithm, the stability and control performance of the fractional-order systems can be guaranteed. Finally, a simulation example of a permanent magnet synchronous motor (PMSM) system reveals the feasibility and effectiveness of the developed scheme.

Topics & Concepts

Control theory (sociology)BacksteppingNonlinear systemActuatorComputer scienceCompensation (psychology)Lyapunov functionStability (learning theory)Filter (signal processing)Control engineeringArtificial neural networkLyapunov stabilityAdaptive systemAdaptive controlControl systemFunction (biology)EngineeringFault (geology)Synchronous motorInverterController (irrigation)Adaptive Control of Nonlinear SystemsAdvanced Control Systems DesignNeural Networks Stability and Synchronization
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