Design and Implementation of Dynamic Regulation Function of Artificial Light Plant Lighting System

Lyu Tiangang, Kuangang Fan, Lyu Henan, Wang Yuefei, Liu Xiujuan
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Abstract

This paper focuses on the design and implementation of dynamic light regulation function of plant light system under intelligent plant culture control system based on industrial Internet of Things technology. The plant lighting system consists of several groups of LED light sources with different wavelengths, multi-channel NUMERICAL control power management IC and peripheral circuits, which together with other terminal equipment, terminal master control board, gateway, server, application end Web/APP, constitute the plant culture system. This project provides an equipment and control method for plant cultivation in a fully artificial environment. The method can achieve precise and dynamic control of the irradiance, photoperiod, and spectral distribution of the LED lighting system according to plant growth cycle information and user needs. The feature of this technology is that it can highly simulate the changing laws of the light environment in nature, and it can also customize the light formula according to plant preferences.
人工光源植物照明系统动态调节功能的设计与实现
本文重点研究了基于工业物联网技术的智能植物栽培控制系统下植物光系统动态光调节功能的设计与实现。植物照明系统由多组不同波长的LED光源、多通道数控电源管理IC和外围电路组成,与其他终端设备、终端主控板、网关、服务器、应用端Web/APP等组成植物栽培系统。本项目为全人工环境下的植物栽培提供了一种设备和控制方法。该方法可以根据植物生长周期信息和用户需求,实现对LED照明系统的辐照度、光周期、光谱分布的精确动态控制。该技术的特点是可以高度模拟自然界光环境的变化规律,还可以根据植物的喜好定制光配方。
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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