Remote monitoring and closed loop control system for social modernization in agricultural system using GSM and Zigbee technology

2014 International Conference on Advances in Electrical Engineering (ICAEE) Pub Date : 2014-06-19 DOI:10.1109/ICAEE.2014.6838438

T. Veeramanikandasamy, K. Rajendran, K. Sambath, D. Sangeetha

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引用次数: 10

Abstract

In agriculture field, the current agricultural practices need to intensify the rate of food crop production for the rate of population growth with available resources. This paper describes the automated system to make effective utilization of water resources for agriculture and crop growth monitoring using GSM and Zigbee technology. Firstly, this system utilized rainwater from the harvest rainwater tank for irrigation and then bore well water has been used. The water use efficiency is increased in drip irrigation system by using soil moisture sensor, humidity sensor and temperature sensor. The signals from the sensors are coordinated by the microcontroller and transmitted to irrigation control centre (ICC) through Zigbee wireless radio communication. The optimized water use for an agriculture crops has been achieved in the ICC successfully. The growth status of the crop also monitored using IR transceiver. The device that can report data to the cultivator remotely and the system allow them to effectively control through GSM.

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基于GSM和Zigbee技术的社会现代化农业系统远程监控闭环控制系统

在农业领域，目前的农业做法需要在现有资源的情况下加强粮食作物产量以适应人口增长率。本文介绍了利用GSM和Zigbee技术实现农业水资源有效利用和作物生长监测的自动化系统。该系统首先利用收获雨水罐的雨水进行灌溉，然后利用井水进行灌溉。采用土壤水分传感器、湿度传感器和温度传感器可以提高滴灌系统的水分利用效率。来自传感器的信号由单片机协调，并通过Zigbee无线通信传输到灌溉控制中心(ICC)。在ICC成功地实现了农业作物的最佳用水。利用红外收发器监测作物的生长状况。该装置可远程向耕耘者报告数据，系统可通过GSM对耕耘者进行有效控制。

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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2014 International Conference on Advances in Electrical Engineering (ICAEE)

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