Robust ADRC for nonlinear time-varying system with uncertainties

2017 6th Data Driven Control and Learning Systems (DDCLS) Pub Date : 2017-05-26 DOI:10.1109/DDCLS.2017.8068096

Xiangyang Li, W. Ai, Zhiqiang Gao, Senping Tian

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引用次数: 4

Abstract

Active disturbance rejection control (ADRC) exemplifies the spirit of the data-driven control (DDC) design strategy and shows much promise in obtaining consistent applications in industrial control systems with uncertainties, without the premise that the detailed mathematical model of the controlled system is given. Instead, it is shown that the information needed for the control system to work at high level of effectiveness can be extracted from the input-output data by the use of the extended state observer (ESO). On the other hand, it is shown in this paper that the robustness of ADRC depends on the effectiveness of ESO. Furthermore, taking advantage of the rich body of knowledge in the existing field of robust control, the estimation error in ESO is analysed and, for the purpose of improved robustness, a unique nonlinear component is added to the conventional ADRC law. The modified ADRC which is a kind of robust ADRC law is validated in simulation for a nonlinear time-varying system with parametric and functional uncertainties. It is shown that the proposed robust ADRC law provides more effective tracking performance than the conventional ADRC when the bandwidth of ESO is not wide enough.

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非线性时变不确定系统的鲁棒自抗扰控制

自抗扰控制(ADRC)体现了数据驱动控制(DDC)设计策略的精神，在不确定的工业控制系统中，无需给出被控系统的详细数学模型就能获得一致的应用前景。相反，研究表明，利用扩展状态观测器(ESO)可以从输入输出数据中提取控制系统在高水平有效工作所需的信息。另一方面，本文证明了自抗扰控制的鲁棒性取决于ESO的有效性。此外，利用现有鲁棒控制领域丰富的知识，分析了ESO的估计误差，并在常规自抗扰律中加入了独特的非线性分量，以提高鲁棒性。针对具有参数和函数不确定性的非线性时变系统，通过仿真验证了修正自抗扰律是一种鲁棒自抗扰律。结果表明，当ESO带宽不够宽时，所提出的鲁棒自抗扰律比传统自抗扰律具有更好的跟踪性能。

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

2017 6th Data Driven Control and Learning Systems (DDCLS)

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