Design and Analysis of a Four DoF Robotic Arm with Two Grippers Used in Agricultural Operations

Basheer Altawi̇l, F. C. Can
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Abstract

Both academic and commercial interest in agricultural robots has increased recently. This is due to the fact that agricultural robots address significant issues such as seasonal labor shortages during harvest and the rising concern over environmentally friendly practices. Because of these, several distinct agricultural robots have already been created for a variety of purposes, with varying degrees of success, including monitoring, spraying, harvesting, transport, etc. As a result, agriculture automation became unfeasible and unprofitable. The purpose of this study is to provide a new methodology for multitasking in performing agriculture operations by designing a 4 Degrees of freedom (4DoF) robotic arm with a new mechanism that has a different configuration with 2 grippers. We did kinematics and kinetics calculations using Denavit-Hardenberg (D-H) method with Lagrangian mechanics, and with the help of Christoffel Symbols of the First Kind, also We used Robot Operating System (ROS) to provide potential solutions using it. It is easy to be paired with other open-source technologies, such as android or IoT technologies. The robot arm can work synchronously with other hardware, sensors, cameras, and agricultural machines concerning farming operations. In conclusion, we believe that this new configuration will open a door for agricultural tasks to be easily automated and achieved using robotic technologies.
农业作业中四自由度双夹持机械臂的设计与分析
最近,学术界和商界对农业机器人的兴趣都有所增加。这是由于农业机器人解决了诸如收获期间季节性劳动力短缺以及对环保实践日益关注等重大问题。正因为如此,一些不同的农业机器人已经被创造出来,用于各种各样的目的,取得了不同程度的成功,包括监控、喷洒、收获、运输等。因此,农业自动化变得不可行,无利可图。本研究的目的是通过设计一种具有不同结构的带有两个夹持器的4自由度(4DoF)机械臂,为农业作业中的多任务处理提供一种新的方法。利用拉格朗日力学的Denavit-Hardenberg (D-H)方法进行运动学和动力学计算,并借助第一类Christoffel符号,利用机器人操作系统(ROS)提供潜在的解决方案。它很容易与其他开源技术(如android或IoT技术)配对。机器人手臂可以与其他硬件、传感器、相机和农业机械同步工作。总之,我们相信这种新的配置将为农业任务的自动化打开一扇大门,并使用机器人技术实现自动化。
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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