Kinematic Calibration of a 3rRPS Metamorphic Parallel Mechanism

Volume 10: 44th Mechanisms and Robotics Conference (MR) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22169

Xuheng Chai, Latifah Nurahmi, J. Dai, D. Gan

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Abstract

In this paper, a kinematic calibration method is developed for a 3rRPS metamorphic parallel mechanism with respect to all unknown parameters. Each limb of the 3rRPS mechanism is composed of (rR), P, and S joints. Two joints are actuated, namely P and r joints, hence the mechanism is able to switch between the 3RPS parallel mechanism and 3US parallel mechanism. The geometric constraint equations of the 3rRPS mechanism are initially established. Then, the optimization problems for the base, platform and actuated prismatic lengths during given trajectory are formulated by using the global search optimization algorithm. A physical model of the 3rRPS metamorphic parallel mechanism is built and an experiment is setup to validate the proposed calibration and optimization models. The external device, i.e., the OptiTrack is used during the experiment for motion capture system. All unknown parameters are identified and optimized by dint of the geometric properties of this mechanism and nonlinear optimization algorithms. The experimental results demonstrate that the proposed calibration method is valid and effective.

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3rRPS变质并联机构的运动学标定

本文提出了一种考虑所有未知参数的3rRPS变质并联机构的运动学标定方法。3rRPS机构的每个肢体由(rR)、P、S关节组成。两个关节被驱动，即P和r关节，因此该机构可以在3RPS并联机构和3US并联机构之间切换。初步建立了3rRPS机构的几何约束方程。然后，利用全局搜索优化算法对给定轨迹下的基座、平台和驱动棱镜长度进行优化。建立了3rRPS变质并联机构的物理模型，并通过实验对所提出的标定和优化模型进行了验证。实验过程中使用外部设备OptiTrack作为运动捕捉系统。利用该机构的几何特性和非线性优化算法对所有未知参数进行辨识和优化。实验结果表明，所提出的标定方法是有效的。

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

Volume 10: 44th Mechanisms and Robotics Conference (MR)

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