Observer-based feedback control of interval-valued fuzzy singular system with time-varying delay and stochastic faults

Int. J. Comput. Commun. Control Pub Date : 2022-12-14 DOI:10.15837/ijccc.2022.6.4957

H. Jerbi, M. Kchaou, Obaid S. Alshammari, Rabeh Abassi, D. Popescu

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引用次数: 2

Abstract

There are countless applications of non-linear systems that incorporate delay and algebraic equations. Despite current improvements in control theory, stochastic actuator defects still pose challenges when it comes to these systems. Furthermore, when it is not possible to measure the states of the system, and when uncertainties affect the system under investigation, the problem becomes even more complex. This paper is concerned with fault-tolerant observer-based controller synthesis for non-linear delayed singular systems with uncertainties and stochastic actuator failures. On the basis of interval valued models, a new Lyapunov-Krasovskii functional is built to develop a less conservative criterion to ensure that the closed-loop system is admissible in the mean-square sense. In addition, as these matrices are coupled with multiple variables, finding the parametric matrices of the observer and controller in terms of the obtained condition is more complex and challenging. The proposed method employs the matrix inequality decoupling technique to resolve this issue. Eventually, simulations are carried out to demonstrate the applicability of the proposed method.

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时变时滞随机故障区间值模糊奇异系统的观测器反馈控制

包含延迟和代数方程的非线性系统有无数的应用。尽管目前控制理论有了很大的进步，但随机执行器的缺陷仍然给这些系统带来了挑战。此外，当不可能测量系统的状态时，当不确定性影响所研究的系统时，问题变得更加复杂。研究了具有不确定性和随机执行器失效的非线性延迟奇异系统的基于观测器的容错控制器综合问题。在区间值模型的基础上，构造了一个新的Lyapunov-Krasovskii泛函，给出了保证闭环系统在均方意义上可容许的更小保守判据。此外，由于这些矩阵与多个变量耦合，根据所获得的条件找到观测器和控制器的参数矩阵更加复杂和具有挑战性。该方法采用矩阵不等式解耦技术来解决这一问题。最后，通过仿真验证了所提方法的适用性。

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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Int. J. Comput. Commun. Control

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