粘弹性接触握把内力的动态控制

8th IEEE International Workshop on Robot and Human Interaction. RO-MAN '99 (Cat. No.99TH8483) Pub Date : 1999-09-27 DOI:10.1109/ROMAN.1999.900360

D. Prattichizzo, Paolo Mercorelli, F. Barbagli

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引用次数: 0

摘要

本文研究的是与被操纵物体具有粘弹性接触相互作用的机器人抓取。这种相互作用在先进的机器人应用中是频繁的，因为在许多情况下，即当需要很高的精度时，弹性是不能忽视的。在医疗应用中尤其如此，比如在远程外科手术或腹腔镜手术中，精度显然是最基本的。本文对粘弹性抓手的内力控制进行了探讨。这是远程操作机器人(远程外科手术等)中的一个重要问题。在接触处存在不可忽略的柔度，这意味着当试图在不影响物体位置的情况下控制内力时，不能忽略物体的动力学。提出了一种将内力控制作用与物体动力学动态解耦的控制律的几何推导方法。

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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Dynamic control of internal force for visco-elastic contact grasps

This paper deals with robotic grasps exhibiting viscoelastic contact interactions with the manipulated object. Such interactions are frequent in advanced robotic applications since in many cases, i.e. when a great precision is needed, elasticity cannot be neglected. This is particularly true in medical applications, as in telesurgery or in laparoscopy, where precision is obviously basic. The control of internal forces for viscoelastic grasps is explored in this work. This is an important issue in teleoperated robotics (telesurgery and so forth). The presence of nonnegligible compliance at the contacts, implies that the object dynamics cannot be neglected when attempting to control internal forces without affecting the object position. A geometric approach to derive a control law dynamically decoupling the internal force control action from the object dynamics is proposed.

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8th IEEE International Workshop on Robot and Human Interaction. RO-MAN '99 (Cat. No.99TH8483)

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