H∞ control of singularly perturbed systems using deficient hidden semi-Markov model

IF 3.7 2区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

Nonlinear Analysis-Hybrid Systems Pub Date : 2023-12-26 DOI:10.1016/j.nahs.2023.101453

Yunzhe Men, Jian Sun

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引用次数: 0

Abstract

This paper deals with the $H_{\infty}$ control of a class of stochastic multi-timescale systems, called Markov jump singularly perturbed systems. The hidden semi-Markov model is introduced to handle the situation when system modes are unavailable in semi-Markov systems. Such a model is assumed deficient, that is, it lacks knowledge about the emission probability, transition probability, and probability density function of the sojourn time. It is a more general case compared with works conducted with perfect transition information. Depending on whether a fast or slow sampling rate is used, the resulting discrete-time singularly perturbed system is modeled differently, for both of which the controller design is conducted. Furthermore, criteria expressed in terms of linear matrix inequalities (LMIs) are developed that guarantee the $δ$ -error mean-square stability. An approach to estimate the upper bound on $δ$ -error with incomplete information is provided, meanwhile, the relationship between system performance and the upper of singular perturbation parameter is also presented. Finally, two simulation examples using real-world systems are provided to corroborate the validity as well as the practical merits of the results.

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利用缺陷隐式半马尔可夫模型实现奇异扰动系统的 H∞ 控制

本文论述了一类随机多时标系统（称为马尔可夫跃迁奇异扰动系统）的 H∞ 控制。本文引入了隐式半马尔可夫模型，以处理半马尔可夫系统中系统模式不可用的情况。这种模型假定是有缺陷的，即缺乏关于发射概率、过渡概率和停留时间概率密度函数的知识。与过渡信息完善的情况相比，这是一种更普遍的情况。根据使用快采样率还是慢采样率，所得到的离散时间奇异扰动系统的建模方式不同，控制器的设计也不同。此外，还制定了以线性矩阵不等式（LMI）表示的标准，以保证δ误差均方稳定性。同时，还提出了系统性能与奇异扰动参数上限之间的关系。最后，还提供了两个使用真实世界系统的仿真实例，以证实结果的有效性和实用性。

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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来源期刊

Nonlinear Analysis-Hybrid Systems AUTOMATION & CONTROL SYSTEMS-MATHEMATICS, APPLIED

CiteScore

8.30

自引率

9.50%

发文量

审稿时长

>12 weeks

期刊介绍： Nonlinear Analysis: Hybrid Systems welcomes all important research and expository papers in any discipline. Papers that are principally concerned with the theory of hybrid systems should contain significant results indicating relevant applications. Papers that emphasize applications should consist of important real world models and illuminating techniques. Papers that interrelate various aspects of hybrid systems will be most welcome.