Discrete sliding mode control based on a new fractional order power reaching law

Journal of Vibration and Control Pub Date : 2024-01-02 DOI:10.1177/10775463231223273
Aicha Znidi, Rim Jallouli Khlif, A. S. Nouri
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Abstract

This paper presents a robust controller design for a discrete linear system, dealing with internal and external disturbances. The main focus is to reduce chattering, minimize undesirable oscillations, and enhance robustness against disturbances using a new discrete sliding mode control. The novel approach involves replacing the classical Gao’s reaching law with a fractional order reaching law based on the Grunwald–Letnikov definition, leading to advantages like a simplified algorithm and improved performance against disturbances. The performances of the suggested method are evaluated through two simulation examples.
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基于新分数阶功率达成律的离散滑模控制
本文介绍了离散线性系统的稳健控制器设计,以应对内部和外部干扰。主要重点是利用一种新的离散滑模控制来减少颤振、最小化不良振荡并增强抗干扰的鲁棒性。这种新方法是用基于格伦沃尔德-列特尼科夫定义的分数阶达成律取代经典的高氏达成律,从而简化了算法并提高了抗干扰性能。我们通过两个仿真实例对所建议方法的性能进行了评估。
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Journal of Vibration and Control
Journal of Vibration and Control
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