Parameter-Dependent Feedback Compensator Design for a Time-Fractional Reaction-Diffusion Equation

Volume 7: 17th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA) Pub Date : 2021-08-17 DOI:10.1115/detc2021-67020

Jun‐Wei Wang, Hua-cheng Zhou

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Abstract

This paper presents a parameter-dependent design of feedback compensator with space-varying gains for Mittag-Leffler stabilization of linear time fractional parabolic MIMO partial differential equations subject to space-varying diffusion and reaction coefficients. In the proposed design method, under a boundedness assumption, the reaction coefficient is written in a parametric form. By using the parametric form for the reaction coefficient and multiple non-collocated observation outputs, an observer-based state feedback compensator with space-varying gains is then constructed such that the resulting closed-loop coupled equations are Mittag-Leffler stable. By applying the Lyapunov technique with Caputo fractional derivative and variants of Poincaré–Wirtinger’s inequality, a sufficient condition for the existence of such feedback compensator is presented in terms of standard linear matrix inequalities. Finally, simulation results are presented to support the proposed design method.

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时间分数阶反应扩散方程的参数相关反馈补偿器设计

针对具有空间变化扩散系数和反应系数的线性时间分数阶抛物型MIMO偏微分方程，提出了一种具有空间变化增益的反馈补偿器的参数依赖设计。在该设计方法中，在有界假设下，反应系数以参数形式表示。通过使用反应系数的参数形式和多个非配置的观测输出，构造了一个基于观测器的状态反馈补偿器，该补偿器具有空间变增益，使得闭环耦合方程是Mittag-Leffler稳定的。利用带有Caputo分数阶导数的Lyapunov技术和poincar - wirtinger不等式的变体，用标准线性矩阵不等式给出了这种反馈补偿器存在的充分条件。最后，给出了仿真结果来支持所提出的设计方法。

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

Volume 7: 17th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA)

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