Prototype of automated irrigation system using raspberry pi and solar energy

Engenharia na Agricultura Pub Date : 2022-12-20 DOI:10.13083/reveng.v30i1.14275

R. C. Borges, C. H. Beuter, Gean Marcos Souza Ferreira

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Abstract

According to surveys and projections by the United Nations (UN), by the year 2100, the world population will reach about 11.2 billion people. Thus, the need arises to develop modern technologies for food production aimed at the future population. Irrigation performed correctly can increase crop productivity, and automated systems are an excellent alternative for controlling irrigation processes. Among the most varied forms of powering water pumping systems, photovoltaic solar energy has become a viable and sustainable alternative for energy generation. This work aimed to build and analyze a prototype of automated irrigation powered by photovoltaic panels, using Raspberry Pi, Arduino, ESP8266 and MQTT protocol to inform the user on a mobile device about the monitoring of the system. Despite being a low-cost system, approximately R$ 2.000.00, the results obtained through the sensors showed good accuracy. With the use of IoT technology, it was possible to monitor soil moisture information that impacts the production system instantly. In addition, using part of the prototype to obtain soil moisture by sending the information via the internet, without needing for a physical connection, proved effective in sending the data.

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利用树莓皮和太阳能的自动灌溉系统原型

根据联合国的调查和预测，到2100年，世界人口将达到约112亿人。因此，有必要开发针对未来人口的粮食生产的现代技术。正确进行灌溉可以提高作物产量，自动化系统是控制灌溉过程的一个很好的选择。在各种各样的水泵供电系统中，光伏太阳能已经成为一种可行的、可持续的替代能源。这项工作旨在建立和分析一个由光伏板供电的自动灌溉原型，使用树莓派，Arduino, ESP8266和MQTT协议通知移动设备上的用户有关系统监控的信息。尽管是一个低成本的系统，大约2.000.00雷亚尔，通过传感器获得的结果显示出良好的准确性。通过使用物联网技术，可以即时监测影响生产系统的土壤湿度信息。此外，使用部分原型通过互联网发送信息来获取土壤湿度，而不需要物理连接，证明了数据发送的有效性。

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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来源期刊

Engenharia na Agricultura

自引率

0.00%

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审稿时长

24 weeks