Finite-time H ∞ ${{H}_\infty }$ fault detection for large-scale power system via Markov jumping mechanism

IF 2.2 4区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS IET Control Theory and Applications Pub Date : 2024-09-05 DOI:10.1049/cth2.12732

Xunting Wang, Bin Xu, Jinjin Ding, Chengcheng Ren, Qian Zhang

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Abstract

This paper investigates the finite-time $H_{\infty}$ fault detection problem for large-scale power systems via the Markov jumping mechanism subject to unknown disturbances. The novel power system is described by a large-scale system model, and the residual dynamic properties of unknown input signals and fault signals, including unknown disturbances and modelling errors, are obtained by reconstructing the system. Then, the energy norm indicators of the residual disturbance signal and fault signal are, respectively, selected to reflect their suppression effect on disturbance and sensitivity to faults. Moreover, the design of a fault detection observer is formulated as an optimisation problem. Based on Lyapunov theory and linear matrix inequalities (LMI), sufficient conditions for the designed fault detection observer solutions are given, and an optimisation design method is provided. Finally, the simulation results show that the optimised observer can detect the fault signal effectively and can contain the effect of unknown disturbances on the residuals within a given range when a fault occurs.

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基于马尔可夫跳变机制的大型电力系统有限时间H∞故障检测${{H}_\infty }$

研究了基于马尔可夫跳变机制的大型电力系统有限时间H∞${{H}_\infty }$故障检测问题。采用大尺度系统模型对新型电力系统进行描述，通过重构得到未知输入信号和故障信号的剩余动态特性，包括未知干扰和建模误差。然后，分别选取残余扰动信号和故障信号的能量范数指标，以反映其对扰动的抑制效果和对故障的敏感性。此外，故障检测观测器的设计被表述为一个优化问题。基于李雅普诺夫理论和线性矩阵不等式（LMI），给出了设计的故障检测观测器解的充分条件，并给出了一种优化设计方法。仿真结果表明，优化后的观测器能有效地检测出故障信号，并能在给定范围内抑制未知干扰对残差的影响。

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来源期刊

IET Control Theory and Applications 工程技术-工程：电子与电气

CiteScore

5.70

自引率

7.70%

发文量

167

审稿时长

5.1 months

期刊介绍： IET Control Theory & Applications is devoted to control systems in the broadest sense, covering new theoretical results and the applications of new and established control methods. Among the topics of interest are system modelling, identification and simulation, the analysis and design of control systems (including computer-aided design), and practical implementation. The scope encompasses technological, economic, physiological (biomedical) and other systems, including man-machine interfaces. Most of the papers published deal with original work from industrial and government laboratories and universities, but subject reviews and tutorial expositions of current methods are welcomed. Correspondence discussing published papers is also welcomed. Applications papers need not necessarily involve new theory. Papers which describe new realisations of established methods, or control techniques applied in a novel situation, or practical studies which compare various designs, would be of interest. Of particular value are theoretical papers which discuss the applicability of new work or applications which engender new theoretical applications.