Flexible Solution of the Inverse Kinematic Task for Cooperating Robots of Different Structures

2020 IEEE 15th International Conference of System of Systems Engineering (SoSE) Pub Date : 2020-06-01 DOI:10.1109/SoSE50414.2020.9130543

Hemza Redjimi, J. Tar

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引用次数: 1

Abstract

In this paper a system of cooperating robots manipulating a rigid object is considered. The robots are constructed of redundant open kinematics chains containing prismatic and rotary joints, and may have different, general structures. For solving the inverse kinematic task of such structures generally only differential approaches are applicable that may cope with problems in the unavoidable kinematic singularities. In the present approach the “master” robot can rigidly grip the workpiece and moves it accordingly. The cooperating ones (the “slaves”) can grip the same workpiece with grippers provided with“elastic adapters” that can be deformed if they execute their motion nearby their kinematic singularities where the tracking precision of the construction is limited. A general differential solution is provided for the inverse kinematic task that is based on the Moore-Penrose pseudoinverse with a tracking errordependent damping factor. Simulation results are presented for two cooperating 8 Degree of Freedom robot arms to exemplify the simplicity of the suggested method.

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不同结构协作机器人逆运动任务的柔性解

本文研究了一个机器人协作操作刚体的系统。机器人由包含移动关节和旋转关节的冗余开放运动链构成，并且可以具有不同的一般结构。对于求解这类结构的逆运动问题，一般只能采用微分方法来处理不可避免的运动奇异性问题。在本方法中，“主”机器人可以刚性地抓住工件并相应地移动工件。配合者(“奴隶”)可以用带有“弹性适配器”的夹持器抓取同一工件，如果它们在其运动奇异点附近执行运动，则会发生变形，而该构造的跟踪精度受到限制。给出了基于带有跟踪误差相关阻尼因子的Moore-Penrose伪逆的运动学逆任务的一般微分解。以两个8自由度机械臂为例进行了仿真，验证了该方法的简洁性。

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

2020 IEEE 15th International Conference of System of Systems Engineering (SoSE)

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