Error allocation model and coordination control for stringer–skin T-shape structure welding robot with multiple manipulators

IF 2.3 4区计算机科学 Q2 Computer Science

International Journal of Advanced Robotic Systems Pub Date : 2022-07-01 DOI:10.1177/17298806221109706

Qingfei Zeng, X. Liu, Ziru Liu

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引用次数: 0

Abstract

A new kind of 18 degrees of freedom gantry robot with multiple manipulators could be used to complete the double-sided laser beam welding of stringer–skin T-shape structure for aircraft skin. The coordination control combined with error allocation model analysis is proposed to improve the stability and accuracy of the robot in this article. Firstly, the error model of the stringer–skin T-shape structure welding robot end effectors is analyzed. The score of the robot end effectors position error caused by each joint is obtained. Secondly, according to the path-points transformation matrix of the local coordinate system relative to the base coordinate system, the desired position of stringer–skin T-shape structure welding robot end effectors is calculated to be the input of the control model aiming at the dual-beam laser welding process. Then, the double closed-loop control strategy is proposed for stringer–skin T-shape structure welding robot coordinated motion on the basis of the end error analysis results and proportional-integralderivative (PID) method. Finally, ADAMS and MATLAB are used to establish a co-simulation platform to verify the effectiveness of the proposed coordination control strategy.

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多机械手弦蒙皮t型焊接机器人误差分配模型及协调控制

一种新型的18自由度多机械手龙门机器人可用于飞机蒙皮桁条-蒙皮T形结构的双面激光焊接。为了提高机器人的稳定性和精度，本文提出了将协调控制与误差分配模型分析相结合的方法。首先，分析了桁条-蒙皮T型结构焊接机器人末端执行器的误差模型。获得了由每个关节引起的机器人末端执行器位置误差的分数。其次，根据局部坐标系相对于基准坐标系的路径点变换矩阵，计算出桁条-蒙皮T形结构焊接机器人末端执行器的期望位置，作为针对双光束激光焊接过程的控制模型的输入。然后，根据端部误差分析结果和比例积分微分（PID）方法，提出了桁条-蒙皮T型结构焊接机器人协调运动的双闭环控制策略。最后，利用ADAMS和MATLAB建立了协同仿真平台，验证了所提协调控制策略的有效性。

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

International Journal of Advanced Robotic Systems ROBOTICS-

CiteScore

6.50

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： International Journal of Advanced Robotic Systems (IJARS) is a JCR ranked, peer-reviewed open access journal covering the full spectrum of robotics research. The journal is addressed to both practicing professionals and researchers in the field of robotics and its specialty areas. IJARS features fourteen topic areas each headed by a Topic Editor-in-Chief, integrating all aspects of research in robotics under the journal''s domain.