Stabilization of asymmetric bilateral teleoperation systems for haptic devices with time-varying delays

2013 American Control Conference Pub Date : 2013-06-17 DOI:10.1109/ACC.2013.6580538

Trent Hilliard, Yaodong Pan

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引用次数: 7

Abstract

This paper invetigates the stabilization issue for a bilateral teleoperation system with time-varying delays. The master and slave manipulators were modeled as linear single degree of freedom systems. The human user force was modeled based on the band limited availability of human motion, and the environmental force was modeled as a spring and damper combination based on the slave position. An impedance matching approach was applied to the master side dynamics, while a static error feedback gain is used to stabilize the slave side dynamics. A Lyapunov functional based on the error dynamics of the system is proposed with consideration for the minimum and maximum level of delays existing in the system. LMI (Linear Matrix Inequality) techniques are used with Jensen's inequality to determine the static feedback control gain. The cone complementarity algorithm is used to deal with non-linear terms within the LMI. The algorithms, hardware applications to haptic devices are described thoroughly and experimental results with comparisons to simulation results are demonstrated to show the effectiveness of the proposed approach.

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时变延迟触觉装置非对称双侧遥操作系统的镇定

研究了一类具有时变时滞的双边遥操作系统的镇定问题。将主、从机械手建模为单自由度线性系统。基于人体运动的频带有限可用性对人体用户力进行建模，基于从位的弹簧和阻尼器组合对环境力进行建模。主侧动态采用阻抗匹配方法，从侧动态采用静态误差反馈增益稳定。考虑系统中存在的最小和最大延迟，提出了基于系统误差动力学的Lyapunov泛函。采用线性矩阵不等式(LMI)技术和Jensen不等式确定静态反馈控制增益。采用锥互补算法处理LMI中的非线性项。详细描述了该方法的算法和在触觉设备上的硬件应用，并将实验结果与仿真结果进行了比较，证明了该方法的有效性。

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

2013 American Control Conference

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