Kinematic calibration of manipulator using single laser pointer

Jwusheng Hu, Jyun-Ji Wang, Yung-Jung Chang
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引用次数: 6

Abstract

This paper proposes a robot kinematic calibration system including a laser pointer installed on the manipulator, a stationary camera, and a planar surface. The laser pointer beams to the surface, and the camera observes the projected laser spot. The position of the laser spot is computed according to the geometrical relationships of line-plane intersection. The laser spot position is sensitive to slight difference of the end-effector pose due to the extensibility of laser beam. Inaccurate kinematic parameters cause inaccurate calculation of the end-effector pose, and then the laser spot position by the forward estimation is deviated from the one by camera observation. For calibrating the robot kinematics, the optimal solution of kinematic parameters is obtained by minimizing the laser spot position difference between the forward estimation and camera measurement via the nonlinear optimization method. The proposed kinematic calibration system is cost-efficient and flexible for any manipulator. The proposed method is validated by simulation and experiment.
单激光笔机械手运动学标定
提出了一种机器人运动学标定系统,该系统包括安装在机械手上的激光笔、固定摄像机和一个平面。激光指针指向表面,相机观察投射的激光光斑。根据线面相交的几何关系计算激光光斑的位置。由于激光束的延展性,激光光斑位置对末端执行器位姿的微小变化非常敏感。由于运动学参数不准确,导致末端执行器位姿计算不准确,进而导致正演估计得到的激光光斑位置与摄像机观测得到的光斑位置存在偏差。为了标定机器人的运动学,采用非线性优化方法,使正演估计与相机测量的激光光斑位置差最小,从而得到运动学参数的最优解。所提出的运动学标定系统对任何机械手都具有成本效益和灵活性。仿真和实验验证了该方法的有效性。
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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