Development of A New Cable-driven Planar Parallel Continuum Robot Using Compound Kinematic Calibration Method

Journal of Mechanisms and Robotics Pub Date : 2024-02-06 DOI:10.1115/1.4064670

Zhengyu Wang, Xuchang Liu, Zirui Jia, Xiang Yu, Zongkun Pei, Jun Yang

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Abstract

This paper presents the design, calibration, and development of a novel cable-driven planar parallel continuum robot (PCR). The PCR employs a novel drive unit, which is mainly composed of cables, guiding pulleys and miniature linear actuators. The kinematic model of the PCR is derived based on the constant curvature assumption and the space vector method, and its workspace and singularity are analyzed. In addition, this paper adopts a novel compound kinematic calibration method, which includes the linear calibration method in the robot-specific model and the use of genetic algorithm (GA) in the robot-independent model. To verify the validity of the calibration method, the pose accuracy is assessed by providing positional points on the elliptical trajectory, and the trajectory tracking accuracy is evaluated by using the circular and rectangular trajectories. The experimental results show that the static positioning accuracy is maintained at 1mm, meanwhile the trajectory tracking accuracy is controlled within the range of 0.9-1.4mm. The PCR developed in this paper shows good comprehensive performance by employing the proposed novel compound kinematic calibration method.

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利用复合运动学校准法开发新型电缆驱动平面平行连续机器人

本文介绍了新型电缆驱动平面平行连续机器人（PCR）的设计、校准和开发。PCR 采用新型驱动单元，主要由电缆、导向滑轮和微型线性致动器组成。基于恒定曲率假设和空间矢量法，推导出了 PCR 的运动学模型，并对其工作空间和奇异性进行了分析。此外，本文还采用了一种新颖的复合运动学校准方法，其中包括机器人特定模型中的线性校准方法和机器人无关模型中的遗传算法（GA）。为了验证校准方法的有效性，通过提供椭圆轨迹上的定位点来评估姿势精度，并使用圆形和矩形轨迹来评估轨迹跟踪精度。实验结果表明，静态定位精度保持在 1 毫米，轨迹跟踪精度控制在 0.9-1.4 毫米范围内。本文开发的 PCR 通过采用所提出的新型复合运动学校准方法，显示出良好的综合性能。

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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Journal of Mechanisms and Robotics

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