Smart Hydroponic Farming System Integrated with LED Grow Lights

Energy Industry and Industrial Design (Innovations in Energy Utilization and Equipment Design) Pub Date : 2024-03-14 DOI:10.47836/pjst.32.2.11

Primadiyanti Nirbita, K. Chan, Gregory Soon How Thien, C. Lee

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Abstract

Vertical farming, including hydroponics, is a growing trend in the agricultural sector due to the increasing demand for food and urbanisation. Thus, hydroponics can save space and achieve faster plant growth compared to traditional farming methods. The concept of smart farming has been applied in this study to improve the ease of control and monitoring of hydroponic systems. The effects of light-emitting diodes (LEDs), light distance, and colour (purple and white) on water spinach growth in a hydroponic system were investigated. Additionally, an Internet of Things (IoT) controller was developed and implemented to facilitate the use of the system in an indoor hydroponic-based environment system. Based on the results, the distance between the LED light of 15 cm and the plants and the colour of the LED light (white) can positively impact plant growth in a hydroponic system. Using an IoT controller also allows for continuous monitoring and control of factors that influence plant growth. Hence, this research would catalyse the local smart hydroponic farming system for improved deliverables.

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集成 LED 种植灯的智能水培农业系统

由于食品需求和城市化进程的不断增长，包括水培在内的垂直耕作在农业领域呈现出日益增长的趋势。因此，与传统耕作方法相比，水培法既能节省空间，又能加快植物生长。本研究应用了智能农业的概念，以提高水培系统控制和监测的便利性。研究了发光二极管（LED）、光距和颜色（紫色和白色）对水培系统中蕹菜生长的影响。此外，还开发并实施了一个物联网（IoT）控制器，以方便在室内水培环境系统中使用该系统。根据研究结果，LED 灯与植物之间 15 厘米的距离以及 LED 灯的颜色（白色）会对水培系统中植物的生长产生积极影响。使用物联网控制器还可以对影响植物生长的因素进行持续监测和控制。因此，这项研究将促进本地智能水培耕作系统的发展，从而提高成果。

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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Energy Industry and Industrial Design (Innovations in Energy Utilization and Equipment Design)

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