Sigma-3: Integration and Analysis of a 6 DOF Robotic Arm Configuration in a Rescue Robot

2019 4th International Conference on Robotics and Automation Engineering (ICRAE) Pub Date : 2019-11-01 DOI:10.1109/ICRAE48301.2019.9043799

R. A. Bindu, A. A. Neloy, S. Alam, N. J. Moni, Shahnewaz Siddique

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引用次数: 2

Abstract

This paper introduces a rescue robot named Sigma-3 which is developed for potential applications such as helping hands for humans where a human can't reach to have an assessment of the hazardous environment. Also, these kinds of robot can be controlled remotely with an adequate control system. The proposed methodology forces on two issues - 1. Novel mechanism design for measuring rotation, joints, links of Degree of Freedom (DOF) for an arm which is integrated with Sigma-3 2. Precise measuring of end-effector motion control over three dimensions. In the proposed mechanism design, the DOF measurement is presented by a planar and spatial mechanism where 4 types of rigid joints build up each DOF with controlling by six High Torque MG996R servo motors. Rotation and DOF measurement are consisting of different theoretical references of Rotation Matrix, Inverse Kinematics with experimental results. Presented methodology over Oscillation Damping performance exhibits less than 3% error while configuring for on hands testing. Another evaluation of operating time state strongly defends the mechanism of low power consumption ability.

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Sigma-3:救援机器人六自由度机械臂构型的集成与分析

本文介绍了一种名为Sigma-3的救援机器人，它是为潜在的应用而开发的，例如在人类无法到达的地方帮助人类进行危险环境评估。此外，这些类型的机器人可以通过适当的控制系统进行远程控制。建议的方法在两个问题上的力量:1。基于sigma - 32集成的机械臂旋转、关节、连杆自由度测量机构设计。末端执行器运动控制的三维精确测量。在该机构设计中，采用平面和空间机构进行自由度测量，每个自由度由4种刚性关节组成，由6台高扭矩MG996R伺服电机控制。旋转和自由度测量由不同的理论参考组成，旋转矩阵，逆运动学与实验结果。所提出的振荡阻尼性能方法在配置为手动测试时误差小于3%。另一种对运行时间状态的评价有力地捍卫了低功耗能力的机制。

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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2019 4th International Conference on Robotics and Automation Engineering (ICRAE)

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