Fuzzy T-S Model Based Fault Tolerant Control Using Immeasurable Decision Variables

2023 IEEE International Conference on Advanced Systems and Emergent Technologies (IC_ASET) Pub Date : 2023-04-29 DOI:10.1109/IC_ASET58101.2023.10151245

Hassen Hichri, M. Ayadi

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Abstract

Developing a fault-tolerant control strategy is the goal of this work so as to reduce the gap between the dynamics of faulty system and reference model. The considered nonlinear systems (NLS) are represented by fuzzy T-S models using immeasurable decision variables in the presence of faults affecting simultaneously the actuator and the output. First, a Proportional Integral (PI) multiobserver is designed to estimate the faults and the faulty system states. Then, a Fault Tolerant Tracking Control (FTTC) is proposed to compensate the impacts of faults and ensure the trajectory dynamics tracking of the reference model regardless of the existence of faults. The performance index using the L2 norm approach is taken into consideration so as to ensure the minimization of the disturbance impacts not only on the tracking error but also on the estimation error of the faulty system states. Finally, an academic example is conveyed to prove the validity, efficiency and advantages of the suggested FTTC approach.

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基于模糊T-S模型的不可测决策变量容错控制

开发一种容错控制策略是本工作的目标，以缩小故障系统动力学与参考模型之间的差距。所考虑的非线性系统(NLS)是用模糊T-S模型表示的，该模型使用不可测量的决策变量，存在同时影响执行器和输出的故障。首先，设计了一个比例积分多观测器来估计故障和故障系统的状态。然后，提出了一种容错跟踪控制(FTTC)来补偿故障的影响，保证参考模型在不存在故障的情况下都能进行轨迹动力学跟踪。考虑了使用L2范数方法的性能指标，以确保干扰对跟踪误差和故障系统状态估计误差的影响最小。最后，通过一个学术实例证明了该方法的有效性、高效性和优越性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE International Conference on Advanced Systems and Emergent Technologies (IC_ASET)

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