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用于双转子多输入多输出系统(TRMS)的输入整形增强型自抗扰控制

Input Shaping enhanced Active Disturbance Rejection Control for a twin rotor multi-input multi-output system (TRMS).

作者信息

Yang Xiaoyan, Cui Jianwei, Lao Dazhong, Li Donghai, Chen Junhui

机构信息

School of Aerospace, Beijing Institute of Technology, Beijing 100081, PR China.

The 41st Institute of the Sixth Academy of China Aerospace Science & Industry Corp, Hohhot 010010, PR China.

出版信息

ISA Trans. 2016 May;62:287-98. doi: 10.1016/j.isatra.2016.02.001. Epub 2016 Feb 26.

Abstract

In this paper, a composite control based on Active Disturbance Rejection Control (ADRC) and Input Shaping is presented for TRMS with two degrees of freedom (DOF). The control tasks consist of accurately tracking desired trajectories and obtaining disturbance rejection in both horizontal and vertical planes. Due to un-measurable states as well as uncertainties stemming from modeling uncertainty and unknown disturbance torques, ADRC is employed, and feed-forward Input Shaping is used to improve the dynamical response. In the proposed approach, because the coupling effects are maintained in controller derivation, there is no requirement to decouple the TRMS into horizontal and vertical subsystems, which is usually performed in the literature. Finally, the proposed method is implemented on the TRMS platform, and the results are compared with those of PID and ADRC in a similar structure. The experimental results demonstrate the effectiveness of the proposed method. The operation of the controller allows for an excellent set-point tracking behavior and disturbance rejection with system nonlinearity and complex coupling conditions.

摘要

本文提出了一种基于自抗扰控制(ADRC)和输入整形的复合控制方法,用于两自由度(DOF)的TRMS。控制任务包括精确跟踪期望轨迹以及在水平和垂直平面上实现抗干扰。由于存在不可测量的状态以及建模不确定性和未知干扰转矩引起的不确定性,采用了ADRC,并使用前馈输入整形来改善动态响应。在所提出的方法中,由于在控制器推导过程中保留了耦合效应,因此无需将TRMS解耦为水平和垂直子系统,而这在文献中通常是要做的。最后,在所搭建的TRMS平台上实现了所提出的方法,并将结果与类似结构的PID和ADRC的结果进行了比较。实验结果证明了所提方法的有效性。该控制器的运行能够在系统非线性和复杂耦合条件下实现出色的设定值跟踪性能和抗干扰能力。

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