A fast-response active disturbance rejection control for a class of nonlinear uncertain systems

Wei Wei, Bowen Duan, Weicun Zhang, Min Zuo
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Abstract

The nonlinear system control is a classical problem in control engineering. In this paper, rather than try to get accurate nonlinear dynamics, the nonlinear and uncertain dynamics are viewed as a signal. It can be estimated by an extended state observer, and compensated by a control law. Accordingly, the nonlinear uncertain system is linearized. Based on the linearized system and the key point of the U-model control, a controller can be designed to obtain predetermined closed-loop system dynamics. To get a more satisfactory performance, a compensation signal of the total disturbance estimation (CSTDE) is designed. Based on the CSTDE, a compensation of the total disturbance estimation based extended state observer (CTDESO) and a fast-response active disturbance rejection control (FRADRC) are proposed. Convergence of the CTDESO and the closed-loop stability of the FRADRC are analyzed. Four nonlinear systems are considered to testify the proposed approaches. Numerical results show that, no matter disturbances exist or not, the proposed CTDESO can linearize a nonlinear system better, and the predetermined closed-loop responses can also be achieved more satisfactorily by the FRADRC.
一类非线性不确定系统的快速响应主动干扰抑制控制
非线性系统控制是控制工程中的一个经典问题。在本文中,与其试图获得精确的非线性动态,不如将非线性和不确定动态视为一种信号。它可以通过扩展状态观测器进行估计,并通过控制法则进行补偿。因此,非线性不确定系统被线性化。根据线性化系统和 U 模型控制的关键点,可以设计一个控制器来获得预定的闭环系统动态。为了获得更令人满意的性能,设计了总干扰估计补偿信号(CSTDE)。在 CSTDE 的基础上,提出了基于扩展状态观测器的总扰动估计补偿(CTDESO)和快速响应主动扰动抑制控制(FRADRC)。分析了 CTDESO 的收敛性和 FRADRC 的闭环稳定性。考虑了四个非线性系统来验证所提出的方法。数值结果表明,无论是否存在干扰,所提出的 CTDESO 都能更好地使非线性系统线性化,而 FRADRC 也能更满意地实现预定的闭环响应。
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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