Calibration of multi-robot system without and under load using electronic theodolites

Proceedings of the First Workshop on Robot Motion and Control. RoMoCo'99 (Cat. No.99EX353) Pub Date : 1999-06-29 DOI:10.1109/ROMOCO.1999.791055

J. Frączek, Z. Busko

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引用次数: 13

Abstract

The new algorithm of the kinematic calibration of robot system using two electronic theodolites is presented. All measurements are carried out relatively to the global, Cartesian coordinate system (GCS) based on three markers fixed on the walls of measurement laboratory instead of system fixed to the theodolites. Since marker distances are measured with relatively low accuracy an error correction procedure was applied. The presented algorithm was applied first to the calibration of two-robot system with five and six degree of freedom respectively. The parameters of robot kinematics were estimated using optimisation procedures. All calculations were performed for coordinates measured in GCS giving significant improvement of robots accuracy. Moreover, using the algorithms developed the calibration of serial-parallel robot was performed. To compare results of robot calibration obtained for robot without load and under load the measurement stand for robot calibration was designed. The serial-parallel robot was calibrated both under load and without load and results obtained were compared.

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用电子经纬仪标定无负载和有负载的多机器人系统

提出了一种利用两台电子经纬仪标定机器人系统运动学的新算法。所有测量都是相对于全球笛卡尔坐标系(GCS)进行的，基于固定在测量实验室墙壁上的三个标记，而不是固定在经纬仪上的系统。由于标记距离的测量精度相对较低，因此采用了误差校正程序。首先将该算法应用于五自由度和六自由度双机器人系统的标定。利用优化程序对机器人运动学参数进行了估计。所有的计算都是在GCS中测量的坐标上进行的，这大大提高了机器人的精度。并利用所开发的算法对并联机器人进行了标定。为了比较机器人在无负载和有负载情况下的标定结果，设计了机器人标定测量台。对并联机器人进行了有载和无载标定，并对标定结果进行了比较。

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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Proceedings of the First Workshop on Robot Motion and Control. RoMoCo'99 (Cat. No.99EX353)

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