Chattering-Free Second Order Robustness Sliding Mode Controller for Complex Interconnected Systems: A Moore-Penrose Inverse Technique

Journal of Advanced Engineering and Computation Pub Date : 2023-12-30 DOI:10.55579/jaec.202374.429

Phuoc Nguyen Van, Trang Nguyen-Cong

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Abstract

In this paper, a novel second order sliding mode control approach is extended toa class of complex interconnected systems with mismatched interconnections and unknown perturbations. The key contribution of this paper is to cancel two common restrictions clogging the application of the variable structure control to complex interconnected systems: 1) all of state variables must be accessible; 2) the control input is affected by chattering problems. First, a novel reduced-order sliding mode estimator (ROSME) is proposed to estimate the unmeasurable variables. Second, based on Moore-Penrose inverse technique and ROSME tool, a new decentralized chattering-free second order robustness sliding mode controller (CSORSMC) is developed to force the system states to stay in a sliding surface from the initial period instance and attenuate the chattering phenomenon in the control signal. Besides, a novel appropriate linear matrix inequality (LMI) requirement is proved such that the plant in sliding mode is asymptotically stable. Lastly, a mathematical model including two subsystems is simulated which confirms the usefulness and advantages of proposed technique.

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复杂互连系统的无喋喋不休二阶鲁棒性滑模控制器：摩尔-彭罗斯逆技术

本文将一种新颖的二阶滑模控制方法扩展到一类具有不匹配互连和未知扰动的复杂互连系统。本文的主要贡献在于取消了将变结构控制应用于复杂互联系统的两个常见限制：1) 所有状态变量必须可访问；2) 控制输入受颤振问题影响。首先，提出了一种新颖的降阶滑动模式估计器（ROSME）来估计不可测变量。其次，基于 Moore-Penrose 逆技术和 ROSME 工具，开发了一种新的分散式无颤振二阶鲁棒性滑模控制器（CSORSMC），以强制系统状态从初始周期实例开始保持在滑动面上，并减弱控制信号中的颤振现象。此外，还证明了一种新的适当线性矩阵不等式（LMI）要求，从而使滑动模式下的工厂渐近稳定。最后，模拟了一个包括两个子系统的数学模型，证实了所提技术的实用性和优势。

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

Journal of Advanced Engineering and Computation

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审稿时长

12 weeks