Synthesis of force-closure grasps on 3-D objects based on the Q distance

Xiangyang Zhu, Jun Wang
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引用次数: 197

Abstract

The synthesis of force-closure grasps on three-dimensional (3-D) objects is a fundamental issue in robotic grasping and dextrous manipulation. In this paper, a numerical force-closure test is developed based on the concept of Q distance. With some mild and realistic assumptions, the proposed test criterion is differentiable almost everywhere and its derivative can be calculated exactly. On this basis, we present an algorithm for planning force-closure grasps, which is implemented by applying descent search to the proposed numerical test in the grasp configuration space. The algorithm is generally applicable to planning optimal force-closure grasps on 3-D objects with curved surfaces and with arbitrary number of contact points. The effectiveness and efficiency of the algorithm are demonstrated by using simulation examples.
基于Q距离的三维物体上的力闭合抓取综合
三维物体上力闭合抓取的综合是机器人抓取和灵巧操作中的一个基本问题。本文基于Q距离的概念,提出了一种数值力合试验方法。在一些温和而现实的假设下,所提出的检验准则几乎在任何地方都是可微的,其导数可以精确地计算出来。在此基础上,我们提出了一种规划力闭合抓取的算法,该算法通过在抓取位形空间中对所提出的数值试验应用下降搜索来实现。该算法一般适用于具有曲面和任意数量接触点的三维物体的最优力闭合抓取规划。通过仿真算例验证了该算法的有效性和高效性。
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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