位置/速度控制机器人的自适应力控制:理论与实验

Proceedings 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems. Expanding the Societal Role of Robotics in the the Next Millennium (Cat. No.01CH37180) Pub Date : 2001-10-29 DOI:10.1109/IROS.2001.976374

J. Roy, L. Whitcomb

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引用次数: 181

摘要

本文解决了工业机械臂中常用的低水平位置和/或速度控制器的机械臂实现精确动态力控制的问题。本文综述了以往报道的方法和实验结果。针对接触未知线性柔度表面的速度/位置机器人手臂，提出了一种新的自适应力控制算法。证明了当机器人处于精确或渐近精确内环速度控制时，该控制器能保证力轨迹跟踪误差全局渐近收敛于零。对于有界内环速度跟踪误差，给出了保证力误差任意小的附加结果。对比实验表明，基于速度(位置)的自适应控制器与非自适应控制器的性能优于先前报道的基于位置的力控制器。

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Adaptive force control of position/velocity controlled robots: theory and experiment

This paper addresses the problem of achieving exact dynamic force control with manipulators possessing the low level position and/or velocity controllers typically employed in industrial robot arms. Previously reported approaches and experimental results are reviewed. A new adaptive force control algorithm for velocity/position controlled robot arms in contact with surfaces of unknown linear compliance is reported. The controller provably guarantees global asymptotic convergence of force trajectory tracking errors to zero when the robot is under exact or asymptotically exact inner loop velocity control. An additional result which guarantees arbitrarily small force errors for bounded inner loop velocity tracking errors is presented. Comparative experiments show the new adaptive velocity (position) based controller and its non-adaptive counterpart to provide performance superior to that of previously reported position based force controllers.

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Proceedings 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems. Expanding the Societal Role of Robotics in the the Next Millennium (Cat. No.01CH37180)

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