具有方向延迟的二维奇异Roesser系统的有限区域稳定性

Hue University Journal of Science: Natural Science Pub Date : 2022-01-27 DOI:10.26459/hueunijns.v130i1d.6283

Huy Vu Le, A. Le

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摘要

本文研究了一类用Roesser模型描述的二维(2-D)奇异系统的有限区域稳定性问题。基于这种规律性，我们首先将底层奇异二维系统分解为对应于动态部分和代数部分的快、慢子系统。然后，利用类lyapunov二维泛函方法，构造了一个加权的二维泛函候点，并利用零型自由矩阵方程导出了线性矩阵不等式(lmi)的时滞相关稳定性条件。更具体地说，导出的条件确保系统的所有状态轨迹在预先指定的有限时间范围内，对于任何初始状态序列，当动态部分的能量范数不超过给定界限时，不超过规定的阈值。

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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Finite-region stability of 2-D singular Roesser systems with directional delays

In this paper, the problem of finite-region stability is studied for a class of two-dimensional (2-D) singular systems described by using the Roesser model with directional delays. Based on the regularity, we first decompose the underlying singular 2-D systems into fast and slow subsystems corresponding to dynamic and algebraic parts. Then, with the Lyapunov-like 2-D functional method, we construct a weighted 2-D functional candidate and utilize zero-type free matrix equations to derive delay-dependent stability conditions in terms of linear matrix inequalities (LMIs). More specifically, the derived conditions ensure that all state trajectories of the system do not exceed a prescribed threshold over a pre-specified finite region of time for any initial state sequences when energy-norms of dynamic parts do not exceed given bounds.

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Hue University Journal of Science: Natural Science

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