Development of IoT based intelligent irrigation system using particle swarm optimization and XGBoost techniques

Bulletin of Electrical Engineering and Informatics Pub Date : 2024-06-01 DOI:10.11591/eei.v13i3.6332

D. T. Santosh, Nandula Anuradha, Madhavi Kolukuluri, Gaurav Gupta, M. K. Pathak, V. G. Krishnan, Abhishek Raghuvanshi

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Abstract

A crop needs regular watering throughout its life to grow well. Irrigation improves food growth. Machines irrigate plants. The dry Sahel, which gets a lot of rain during the summer season but is dry in winter, needs irrigation. When it doesn't rain enough, crops need watering. By constantly monitoring soil moisture, humidity, temperature, and pH, precision agriculture reduces water use and increases crop output. Precision gardening uses less water. In many wealthy nations, efficient farming requires the internet of things (IoT). Particle swarm optimization (PSO) and XGBoost are used in this IoT-based intelligent watering system. Humidity and moisture sensors gather soil data at grass roots. Sensors constantly gather this data. These data are useless for smart watering. PSOselects smart watering data. This reduces central cloud info storage. Then, machine learning methods are trained using soil humidity, moisture, crop, and weather data. These programs can calculate a crop's water requirements. IoT devices control irrigation system water flow and results in saving fresh water. XGBoost algorithm is saving water from 23% to 27% for different crops.

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利用粒子群优化和 XGBoost 技术开发基于物联网的智能灌溉系统

作物一生都需要定期浇水，才能生长良好。灌溉可以促进粮食生长。机器灌溉植物。干旱的萨赫勒地区夏季雨水充沛，但冬季干旱，因此需要灌溉。雨水不足时，农作物需要浇水。通过持续监测土壤水分、湿度、温度和酸碱度，精准农业可以减少用水量，提高作物产量。精准园艺用水量更少。在许多富裕国家，高效农业需要物联网（IoT）。这种基于物联网的智能浇灌系统采用了粒子群优化（PSO）和 XGBoost 技术。湿度和水分传感器收集基层土壤数据。传感器不断收集这些数据。这些数据对智能浇灌毫无用处。PSO 可选择智能浇灌数据。这样可以减少中央云信息存储。然后，利用土壤湿度、水分、作物和天气数据训练机器学习方法。这些程序可以计算出作物的需水量。物联网设备可控制灌溉系统的水流，从而节约淡水。XGBoost 算法可为不同作物节水 23% 至 27%。

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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Bulletin of Electrical Engineering and Informatics

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