延迟开关正系统的状态估计:延迟半径法

IF 7.3 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Weizhong Chen, Zhongyang Fei, Xudong Zhao, Zheng-Guang Wu
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引用次数: 0

摘要

本文针对平均停留时间取决于模式切换的延迟切换正系统(DSPS)开发了一种区间估计方案。针对具有正发生器矩阵的延迟交叉正系统,提出了一种无损区间估计方法。首先,考虑到系统模式和校正矩阵模式之间存在不同步,为 DSPS 构建了不匹配交点众矢,以验证系统模型和输出之间的一致性。然后,利用引入的半径定义,解决了 ℓ∞ 性能问题,从而优化了延迟交点带的大小。随后,我们通过构建基于正发电机矩阵的延迟半径函数,提出了开关信号和与模式相关的修正矩阵的联合设计方法。此外,我们还根据所提出的无损方位估计准则,为所考虑的 DSPS 推导出了有保证的非负状态边界。最后,通过详细的仿真验证了所开发方法的可行性和优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State estimation for delayed switched positive systems: delayed radius approach

In this paper, an interval estimation scheme is developed for delayed switched positive systems (DSPS) with mode-dependent average dwell time switching. A lossless zonotopic estimation approach is proposed for the delayed intersection zonotope with the positive generator matrix. First, considering the existence of asynchronism between the system mode and the correction matrix mode, the mismatched intersection zonotope is constructed for DSPS to verify the consistency between the system model and outputs. Then, by utilizing the introduced radius definitions, the performance is addressed to optimize the size of delayed intersection zonotopes. Subsequently, we present a joint-design approach of switching signals and the mode-dependent correction matrix by constructing positive generator matrix-based delayed radius functions. Furthermore, guaranteed nonnegative state bounds are derived for the considered DSPS based on the proposed lossless zonotopic estimation criteria. Finally, detailed simulations are conducted to validate the feasibility and superiority of the developed methods.

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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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