3d打印农业无人机(Ardufarmer)的开发

Jennalyn A. Venegas, Euan L. Maulas, Reinjhel F. Gomez, Mary Grace V. Vinzon, Giovanni D. David
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引用次数: 0

摘要

本研究针对农业产业所面临的劳工危机,以及农民对替代种植技术的需求。Ardufarmer是一款种子播种机,结合了新兴的增材制造技术和四轴飞行器机器人技术,形成了一种替代的广播耕作方法,通过播种工具集:种子库、分配器阀、钻头、Arduino和GPS编程,在最短的时间内有效地覆盖给定的土地面积。四轴飞行器的开发包括无人机机身和播种机的设计,不同设置下零件的三维打印(3D打印),3D打印零件的仿真分析,Arduino板和GPS机构的编程。无人机在不同的陆地区域进行了时间测试。研究结果显示,无人机的种植速度为每50平方米36.41秒,比人工种植(每50平方米144秒)效率更高。Ardufarmer在不同的土地区域进行了高度、时间和传播直径的测试。该装置可以在每平方米12秒内有效地播种。研究还表明,所提出的无人机技术的最小相对时间节省百分比为74.72%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of 3D-Printed Agricultural Drone (Ardufarmer)
This study addresses the labor crisis that the agriculture industry faces and the need for an alternative planting technology for farmers. Ardufarmer is a seed sowing machine that combines the emerging additive manufacturing technology and quadcopter robotics to form an alternative broadcast farming method that efficiently covers a given land area in the least amount of time through planting toolsets: seed reservoir, dispenser valve, drill, Arduino, and GPS programming. The quadcopter development includes designing the drone fuselage and seed dispenser, three-dimensional printing (3D printing) the parts under different settings, simulation and analysis of 3D-printed parts, and programming the Arduino board and GPS mechanism. The drone was tested in different land areas in terms of time spent. The study shows that the planting rate of the drone is more efficient at 36.41 seconds in 50 square meters than manual planting at 144 seconds in 50 square meters. The Ardufarmer was tested in terms of height, time spent, and spreading diameter in different land areas. The device can effectively sow seeds in 12 seconds per square meter. The study also shows that the minimum percentage relative time saving of the proposed drone technology is 74.72%.
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