A generalized motion/force planning strategy for multifingered hands using both rolling and sliding contacts

Proceedings of 1993 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS '93) Pub Date : 1993-07-26 DOI:10.1109/IROS.1993.583088

N. Chong, Donghoon Choi, I. Suh

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引用次数: 17

Abstract

A generalized algorithm for the motion/force planning of the multifingered hand is proposed to generate finite displacements and changes in orientation of objects by considering sliding contacts as well as rolling contacts between the fingertip and the object at the contact point. Specifically, a nonlinear optimization problem is firstly formulated and solved to find joint velocities and contact forces to impart a desired motion to the object at each time step. Then, the relative velocity at the contact point is found by calculating the velocity of the fingertip and the object at the contact point. Finally, time derivatives of the surface variables and the contact angle of the fingertip and the object at the current time step is computed using the Montana's contact equation to find the contact parameters of the fingertip and the object at the next time step. To show the validity of the proposed algorithm, a numerical example is illustrated by using the robotic hand manipulating a circular cylinder with three fingers each of which has four joints.

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使用滚动和滑动接触的多指手的广义运动/力规划策略

提出了一种多指手运动/力规划的广义算法，该算法考虑了指尖与物体在接触点处的滑动接触和滚动接触，从而产生物体的有限位移和方向变化。具体而言，首先建立并求解了一个非线性优化问题，以确定关节速度和接触力，从而在每个时间步长赋予物体所需的运动。然后，通过计算指尖与物体在接触点处的速度，求出接触点处的相对速度。最后，利用蒙大拿州接触方程计算当前时间步长的表面变量和指尖与物体的接触角的时间导数，求出下一时间步长的指尖与物体的接触参数。为验证该算法的有效性，以机械手为例，用三个手指操纵一个圆柱，每个手指有四个关节。

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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Proceedings of 1993 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS '93)

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