A suggested simple design and inverse kinematics for a multi-degrees-of-freedom robot arm

International Robotics & Automation Journal Pub Date : 2021-11-19 DOI:10.15406/iratj.2021.07.00234

K. Pasha

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Abstract

In this paper, architecture for the robot arm and a mathematical model was suggested to simplify the inverse kinematics that describes the movement and orientation of this end-effector. Although this design contains eight degrees of freedom, all the angular displacements and velocities could be formulated as functions of the three coordinates of the end-effecter starting point. These three values are enough to set the end-effector at the desired point in the workspace, and with the desired orientation. The tip of the end-effecter could be equipped with a grabber or any attached manufacturing tool. To check the reliability of the introduced mathematical model, a simple model for the arm was built using aluminum beams. The joints are actuated by stepper motors that are controlled by a microprocessor. The model executed the positioning and orientation of the end-effector with an accuracy of about 93% of any traveled distance. This lack of accuracy may be accounted for by the low resolutions of the used motors. In this study, the positioning and orientation were only considered, and future work is required for the analysis of loads and power capacities

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提出了一种多自由度机械臂的简单设计和运动学逆解

本文提出了机械臂的结构和数学模型，以简化描述该末端执行器的运动和方向的逆运动学。虽然该设计包含八个自由度，但所有角位移和角速度都可以表示为末端执行器起点三个坐标的函数。这三个值足以将末端执行器设置在工作空间中所需的点上，并具有所需的方向。末端执行器的尖端可以配备抓手或任何附加的制造工具。为了验证所引入的数学模型的可靠性，利用铝梁建立了一个简单的机械臂模型。这些关节由由微处理器控制的步进电机驱动。该模型对末端执行器的定位和定向精度约为任意移动距离的93%。这种精度的缺乏可能是由于所用电机的低分辨率造成的。在本研究中，只考虑了定位和方向，未来还需要对负载和功率容量进行分析

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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International Robotics & Automation Journal

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