Intelligent Robust Control for Three-Link Robot Manipulator via Sliding Mode Technology

2007 IEEE 22nd International Symposium on Intelligent Control Pub Date : 2007-10-01 DOI:10.1109/ISIC.2007.4450936

Wen-Fong Hu, Chiu-Hsiung Chen, Ya-Fu Peng, Chih-Min Lin

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引用次数: 4

Abstract

This paper develops an intelligent robust control algorithm for a class of uncertain nonlinear multivariable systems by using sliding model technology. The proposed control algorithm consists of an adaptive recurrent cerebellar model articulation controller (RCMAC) and a robust controller. The adaptive RCMAC is a main tracking controller utilized to mimic an ideal sliding mode controller, and the parameters of the adaptive RCMAC are on-line tuned by the derived adaptive laws from the Lyapunov function. Based on the H" control approach, the robust controller is employed to efficiently suppress the influence of residual approximation error between the ideal sliding mode controller and the adaptive RCMAC, so that the robust tracking performance of the system can be guaranteed. Finally, computer simulation results on a three-link robot manipulator are performed to verify the effectiveness and feasibility of the proposed control algorithm. The simulation results confirm that the developed control algorithm not only can guarantee the system stability but also achieve an excellent robust tracking performance.

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基于滑模技术的三连杆机器人智能鲁棒控制

针对一类不确定非线性多变量系统，利用滑模技术提出了一种智能鲁棒控制算法。该控制算法由自适应循环小脑模型关节控制器(RCMAC)和鲁棒控制器组成。自适应RCMAC是一种用于模拟理想滑模控制器的主要跟踪控制器，其参数由Lyapunov函数导出的自适应律在线调谐。基于H”控制方法，采用鲁棒控制器有效地抑制了理想滑模控制器与自适应RCMAC之间残差逼近误差的影响，从而保证了系统的鲁棒跟踪性能。最后，对一个三连杆机器人机械手进行了计算机仿真，验证了所提控制算法的有效性和可行性。仿真结果表明，所提出的控制算法不仅能保证系统的稳定性，而且具有良好的鲁棒跟踪性能。

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

2007 IEEE 22nd International Symposium on Intelligent Control

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