A Novel Method on Parallel Robot's Pose Measuring and Calibration

2007 2nd IEEE Conference on Industrial Electronics and Applications Pub Date : 2007-09-24 DOI:10.1109/ICIEA.2007.4318614

Yu Lingtao, Wang Jian, Du Zhijiang, S. Li-ning, C. Hegao

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引用次数: 9

Abstract

Compared with serial robots, because of some advantages, e.g. higher stiffness, errors will not accumulate etc., parallel robot has much potential use on micro electromechanical systems. Although the robot is manufactured and assembled carefully, there are still some tiny errors between the nominal and actual values of parameters, which influence the system's final performance obviously. To satisfy precision requirements of micro electromechanical systems, it's necessary to do the calibration. Comparing strength and weakness of often-used equipments, coordinate measure machine (CMM) is adopted and a novel measurement method - 'three planes method' is proposed. The plane equation will be measured instead of the position of points to realize the CMM's strength and avoid errors made by human. This method is verified with a 6 DOFs parallel robot with parallel tracks. The results show that after calibration the error between the nominal and measured poses achieve the same level with the robot's repeatability, which is much improved than without calibration.

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一种并联机器人姿态测量与标定的新方法

与串联机器人相比，并联机器人具有刚度高、误差不会累积等优点，在微机电系统中具有很大的应用潜力。虽然机器人的制造和组装都很仔细，但参数的标称值和实际值之间仍然存在一些微小的误差，这明显影响了系统的最终性能。为了满足微机电系统的精度要求，必须进行标定。采用三坐标测量机(CMM)对常用设备的优缺点进行比较，提出了一种新的测量方法——“三平面法”。测量平面方程而不是测量点的位置，以实现三坐标机的强度，避免人为误差。以并联轨迹的6自由度并联机器人为例验证了该方法的有效性。结果表明，标定后的标定姿态与实测姿态之间的误差达到了与机器人重复性相同的水平，比未标定时有了很大的提高。

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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来源期刊

2007 2nd IEEE Conference on Industrial Electronics and Applications

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