Design and Implementation of IoT-Based Aeroponic Farming System

Riswandi, M. Niswar, Z. Tahir, Zainal, Chong Yung Wey
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引用次数: 2

Abstract

Urban farming becomes popular and enhances food security in urban areas. Aeroponic is one of the urban farming methods where plant roots are suspended in the air and are supplied with nutrients by mist spraying. This paper describes an IoT system for monitoring and controlling evapotranspiration in an aeroponic environment. The system consists of a microcontroller, single-board computer, sensors, and actuators. The sensors in the system collect the data on plant environment parameters including air temperature, humidity, total dissolved solids (TDS), pH, and water temperature. Then, the system calculates the level of evapotranspiration using the Blaney-Criddle method to determine the appropriate actuator action to reduce the level of evapotranspiration in aeroponic using a fuzzy algorithm. The experimental result shows that our IoT system can reduce evapotranspiration, hence, it can improve the plant quality.
基于物联网的气培农业系统设计与实现
城市农业开始流行,并加强了城市地区的粮食安全。气培法是一种城市耕作方法,将植物根系悬浮在空气中,并通过喷雾提供营养。本文介绍了一种用于监测和控制气培环境中蒸散发的物联网系统。该系统由微控制器、单板计算机、传感器和执行器组成。系统中的传感器采集工厂环境参数数据,包括空气温度、湿度、TDS (total dissolved solids)、pH、水温等。然后,系统利用Blaney-Criddle法计算出气培系统的蒸散发水平,利用模糊算法确定合适的执行器动作来降低气培系统的蒸散发水平。实验结果表明,我们的物联网系统可以减少植物的蒸散量,从而提高植物的品质。
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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