基于累积状态误差的事件触发采样方案及其在采样数据系统 H∞ 控制中的应用

IF 7.3 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Xian-Ming Zhang, Qing-Long Han, Bao-Lin Zhang, Xiaohua Ge, Dawei Zhang
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引用次数: 0

摘要

本文涉及采样数据系统的事件触发 H∞ 控制。其新颖之处在于三个方面:(i) 通过比较从 tk 到 t 的状态误差积分与 tk 时的系统状态采样,引入了一种基于累积状态误差的新颖事件触发方案。由于不会出现所谓的 Zeno 行为,因此该条件运行良好。(ii) 构建一个新的 Lyapunov 函数,以建立一个标准,确保闭环系统具有一定的 H∞ 性能。这个 Lyapunov 函数取决于事件触发方案所涉及的状态误差积分。(iii) 在事件触发采样方案下,可以设计合适的状态反馈控制器,而不是先验地给出控制器。此外,本文还介绍了事件触发采样方案的自触发实现方法。最后,给出了一个批量反应器模型和一个倒立摆系统,以证明所提方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Accumulated-state-error-based event-triggered sampling scheme and its application to H∞ control of sampled-data systems

This paper is concerned with event-triggered H control of sampled-data systems. Its novelties lie in three aspects: (i) A novel accumulated-state-error-based event-triggered scheme is introduced by comparing the integral of the state error from tk to t with the system state sampled at tk. This condition works well due to the fact that the so-called Zeno behaviour does not occur. (ii) A novel Lyapunov functional is constructed to establish a criterion to ensure some certain H performance of the closed-loop system. This Lyapunov functional is dependent on the integral of the state error involved in the event-triggered scheme. (iii) Under the event-triggered sampling scheme, suitable state-feedback controllers can be designed rather than be given a priori. Moreover, a self-triggered implementation of the proposed event-triggered sampling scheme is presented as well. Finally, a batch reactor model and an inverted pendulum system are given to demonstrate the effectiveness of the proposed method.

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来源期刊
Science China Information Sciences
Science China Information Sciences COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
12.60
自引率
5.70%
发文量
224
审稿时长
8.3 months
期刊介绍: Science China Information Sciences is a dedicated journal that showcases high-quality, original research across various domains of information sciences. It encompasses Computer Science & Technologies, Control Science & Engineering, Information & Communication Engineering, Microelectronics & Solid-State Electronics, and Quantum Information, providing a platform for the dissemination of significant contributions in these fields.
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