确定由三指机械手处理的物体的位移和速度

Proceedings of 1993 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS '93) Pub Date : 1993-07-26 DOI:10.1109/IROS.1993.583095

Dongmin Kim, H. Krishnan

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引用次数: 0

摘要

研究了用三指机器人手处理具有摩擦点接触的刚体的位移(位置和方向)和速度(线速度和角速度)的确定问题。在实际操作中，直接测量被抓物体的形状和速度是很困难的。众所周知，刚体的位移完全由固定在物体上的三个非线性点的初始和最终位置决定。同样，刚体的瞬时速度可以由固定在刚体上的三个非线性点的线速度确定。以前开发的算法涉及计算需要计算几个三角函数或矩阵逆。作者提出了替代的计算效率算法，用于确定由三指机械手处理的物体的位移和速度。

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Determination of displacement and velocity of an object handled by a three-fingered robot hand

The authors consider the problem of determining the displacement (position and orientation) and the velocity (linear and angular) of a rigid body handled by a three-fingered robot hand with frictional point contact. Direct measurement of configuration and velocity of the grasped object is difficult in practice. It is well known that the displacement of the rigid body is completely specified by the initial and final positions of three noncolinear points fixed on the object. Similarly, the instantaneous velocity of the rigid body can be determined from the linear velocity of three noncolinear points fixed on the body. Previously developed algorithms are computationally involved by the need to compute several trigonometric functions or matrix inverses. The authors present alternate computationally efficient algorithms for determining the displacement and the velocity of an object handled by a three-fingered robot hand.

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

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