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Fault-Tolerant Fuzzy-Resilient Control for Fractional-Order Stochastic Underactuated System With Unmodeled Dynamics and Actuator Saturation

Yuqing Yan, Huaguang Zhang, Yunfei Mu, Jiayue Sun

2023IEEE Transactions on Cybernetics27 citationsDOI

Abstract

This article is considered on underactuated fractional-order stochastic systems (FOSSs) with actuator saturation and incrementally conic nonlinear terms, whose fractional-order α ∈ (0,1) . First, to bring FO dynamic signals, solving the unmodeled dynamics, in the meantime, the saturated nonlinear term of the control input is taken into account. At the time, to cope with the stability issue of FOSS under such situation, the fault tolerant resilient controller based on underactuated condition is designed. Then, according to the method of the Lyapunov and It∧ o differential formulation to design proper multiple Lyapunov-Krasovskii (L-K) functions, such that, a novel sufficient condition of the robustly asymptotically stability of fuzzy FOSS under underactuated conditions is rigorously proved in terms of linear matrix inequality (LMI). Furthermore, in order to research the mean square stability of the above-mentioned system, so the solution of FOSS is obtained to achieve this purpose. By applying the above method, which is proposed in this work that the controlled system can be obtained with faster response and higher control accuracy. At last, to display the superiority of the above-mentioned scheme is effective, tethered satellite system and numerical results are presented.

Topics & Concepts

UnderactuationControl theory (sociology)Nonlinear systemFuzzy logicMathematicsActuatorController (irrigation)Linear matrix inequalityLyapunov functionComputer scienceMathematical optimizationControl (management)PhysicsBiologyQuantum mechanicsAgronomyArtificial intelligenceChaos control and synchronizationAdaptive Control of Nonlinear SystemsControl and Dynamics of Mobile Robots
Fault-Tolerant Fuzzy-Resilient Control for Fractional-Order Stochastic Underactuated System With Unmodeled Dynamics and Actuator Saturation | Litcius