Development of a control architecture for a parallel three-axis robotic arm mechanism using CANopen communication protocol

Fu-Shin Lee, Chen-I Lin, Zhi-Yu Chen, Ruichen Yang
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引用次数: 2

Abstract

Based upon the CANopen communication protocol and the LabVIEW graphic programing procedures, this paper develops a closed-loop control architecture for a parallel three-axis (Delta) robotic arm mechanism. The accomplishments include prototyping a parallel three-axis robotic arm mechanism, assembling servomotors with associated encoders and gearsets, coding CANopen communication scripts for servomotor controllers and a host supervision GUI, coding forward/inverse kinematics scripts to compute the required servomotor rotations and the coordinates of a movable platform or the mechanism, coding tracking error compensation scripts for effective closed-loop griper control, and coding integration scripts to command and supervise the mechanism motion on the LabVIEW-based host GUI. During the development stage, this research designed and prototyped the parallel three-axis robotic arm mechanism based upon basic Delta robot kinematics. To control the mechanism effectively and accurately, this study implemented the CANopen communication protocol, which characterizes high speed and stable transmission. The protocol applies to the CANopen communication channels among the controllers and the host supervision GUI. On the LabVIEW development platform, the coded supervision GUI performs issuing/receiving messages to the CANopen-based controllers. The controllers excite the servomotors and actuate the parallel mechanism to track prescribed trajectories in a closed-loop control fashion. Meanwhile, an electromagnet attached to the movable platform of the robotic mechanism performs satisfactory picking/placing object actions.
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基于CANopen通信协议的并联三轴机械臂机构控制体系结构的开发
基于CANopen通信协议和LabVIEW图形编程程序,开发了一种并联三轴机械臂机构的闭环控制体系结构。所取得的成果包括:对并联三轴机械臂机构进行原型设计,将伺服电机与相关编码器和齿轮组组装在一起,编写用于伺服电机控制器和主机监督GUI的CANopen通信脚本,编写用于计算所需伺服电机旋转和可移动平台或机构坐标的正运动学/逆运动学脚本,编写用于有效闭环抓取器控制的跟踪误差补偿脚本。编写集成脚本,在基于labview的主机GUI上对机构运动进行命令和监督。在开发阶段,本研究基于Delta机器人基本运动学原理,设计并样机了并联三轴机械臂机构。为了有效、准确地控制该机制,本研究实现了高速、稳定传输的CANopen通信协议。该协议适用于控制器与主机监控界面之间的CANopen通信通道。在LabVIEW开发平台上,编码监督GUI向基于canopen的控制器发出/接收消息。控制器以闭环控制方式激励伺服电机,驱动并联机构沿规定轨迹运动。同时,附着在机器人机构可移动平台上的电磁铁可以完成满意的拾取/放置物体动作。
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