Accuracy Evaluation of Parallel Mechanism Using Laser Tracking Coordinate Measuring System

Yoshihiko KOSEKI; Tatsuo ARAI; Kouichi SUGIMOTO

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Accuracy Evaluation of Parallel Mechanism Using Laser Tracking Coordinate Measuring System

机译：激光跟踪坐标测量系统对并联机构的精度评估

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In this paper, we experimentally evaluate the accuracy of parallel mechanism using Laser Tracking Coordinate Measuring System. The system has 4 tracking laser interferometers to measure the distance from retroreflector incrementally. Redundant 4 measurements enable us to identify relative location of each laser. Then the co- ordinate of retroreflector can be estimated precisely. We test the repeatability of parallel mechanism, and find that positioning error is less than 0.099mm. Then we calibrate the kinematic model of parallel mechanism to improve its absolute accuracy. The positions and poses of the endplate are measured and used for reference data of calibration and the kinematic parameter is modified to minimize the positioning error. Its maximum error is 0.98mm.

机译：在本文中，我们使用激光跟踪坐标测量系统通过实验评估了并联机构的精度。该系统具有4个跟踪激光干涉仪，用于逐步测量距后向反射器的距离。冗余4次测量使我们能够识别每个激光器的相对位置。然后可以精确地估计后向反射器的坐标。我们测试了并联机构的可重复性，发现定位误差小于0.099mm。然后，对并联机构的运动学模型进行校正，以提高其绝对精度。测量端板的位置和姿势，并将其用作校准的参考数据，并修改运动学参数以最小化定位误差。最大误差为0.98mm。

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《計量研究所報告》 |1999年第1期|7-14|共8页
作者
Yoshihiko KOSEKI; Tatsuo ARAI; Kouichi SUGIMOTO;
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正文语种 jpn
中图分类工业技术现状与发展;
关键词
parallel mechanism; calibration; absolute positioning accuracy;

机译：并行机制校准;绝对定位精度;

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Accuracy Evaluation of Parallel Mechanism Using Laser Tracking Coordinate Measuring System

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