Precision Agriculture Using Hanging Robot

International Journal of Innovative Research in Science, Engineering and Technology Pub Date : 2023-05-15 DOI:10.59256/ijire.2023040389

Dhivyadharshini S, Shalini S, Radhakrishnan C

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Abstract

The precision agriculture monitoring system is an emerging concept. The sensors are capable of providing information about agricultural fields and then Artificial Intelligence takes decision automatically based on the sensor values. Monitoring environmental conditions is the major factor to improve yield of the efficient crops. In this project, we present a new approach by using hanging robot with virtual assistance in the agriculture field by monitoring moisture, temperature etc.It further provides a review on the most common sensing principles that can be used for in-situ and real-time temperature and and humidity level, as well as an overview of the difficulties for deploying these sensing systems and their electronic interfaces in the harsh soil environment. It reviews existing agricultural circuits and sensing systems designed for agricultural monitoring and their limitations whilst highlighting remaining challenges in order to make automated, decision- making systems for precision agriculture, a reality. Key Word: Integrated circuit, Motor driver supply, Sinusoidal signal, Communication port, Integrated Development Environment.

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使用悬挂式机器人的精准农业

精准农业监测系统是一个新兴的概念。传感器能够提供有关农田的信息，然后人工智能根据传感器的值自动做出决策。环境条件监测是提高高效作物产量的主要因素。在本项目中，我们提出了一种新的方法，即在农业领域使用具有虚拟辅助的悬挂机器人，通过监测湿度，温度等。它进一步回顾了可用于现场和实时温度和湿度水平的最常见传感原理，以及概述了在恶劣土壤环境中部署这些传感系统及其电子接口的困难。它回顾了为农业监测而设计的现有农业电路和传感系统及其局限性，同时强调了为实现精准农业的自动化决策系统而存在的挑战。关键词:集成电路，电机驱动电源，正弦信号，通信端口，集成开发环境。

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 Journal of Innovative Research in Science, Engineering and Technology

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