Fuzzy Logic dalam Pengontrolan Nilai Intensitas Cahaya LED pada Mini Plant Factory Budidaya Tanaman Pak Choy (Brassica Chinensis L.) Hidroponik

Rekayasa Pub Date : 2023-08-12 DOI:10.21107/rekayasa.v16i2.15347

Choirul Umam, Fahmi Arief Rahman, Mohammad Syafii, Nurul Hidayat

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Abstract

Ideally, the Pak Choy plant (Brassica Chinensis L) is cultivated with microenvironmental conditions of temperature 150C- 320C, humidity 60% - 80% and the same intensity of sunlight as other vegetable plants, namely in a vegetative vase of 300-400 micromols/m2/second and a period of generative 500-1000 micromols/m2/sec . The challenge of agriculture today is to meet the increasing need for food with limited land and uncertain plant microenvironmental conditions, one solution to this problem is planting using a plant factory system. Fuzzy logic has an effective method for controlling plant factory control systems, due to its flexibility and simple calculations. The purpose of this research is to find the PWM value in the plant factory control system that suits the optimal needs of pak choy vegetable cultivation. There are 4 stages in the research, namely the primary data input of the LED plant factory, Fuzzyfication, Fuzzy Interface System and Defuzzification. Data was taken using a lux meter and there were a total of 56 fuzzy rules and 4 fuzzy rules that did not have a value of 0. The lighting level/light intensity control system based on fuzzy logic was obtained with a PWM (Pulse Width Modulation) value of 872.1662 for a light intensity set point of 8000 Lux.

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模糊的逻辑，以减少二鱼苗栽培工厂灯光强度的模糊强度。水培

理想情况下，白菜(Brassica Chinensis L)的微环境条件为温度150℃- 320℃，湿度60% - 80%，日照强度与其他蔬菜植物相同，即在300-400微摩尔/m2/秒的营养花瓶中种植，繁殖周期为500-1000微摩尔/m2/秒。当今农业面临的挑战是在有限的土地和不确定的植物微环境条件下满足日益增长的粮食需求，解决这一问题的一种方法是使用植物工厂系统进行种植。模糊逻辑由于其灵活性和计算简单，是控制工厂控制系统的有效方法。本研究的目的是在植物工厂控制系统中寻找适合白菜蔬菜种植最优需求的PWM值。研究分为4个阶段，即LED植物工厂的原始数据输入、模糊化、模糊接口系统和去模糊化。使用勒克斯计采集数据，共有56条模糊规则和4条不为0值的模糊规则。基于模糊逻辑的照明电平/光强控制系统，光强设定点为8000 Lux, PWM(脉宽调制)值为872.1662。

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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Rekayasa

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审稿时长

12 weeks