Adaptive Fuzzy in Agriculture System

IJAIT (International Journal of Applied Information Technology) Pub Date : 2023-06-05 DOI:10.25124/ijait.v6i01.4752

Eddy Nurraharjo, Muji Syukur, B. Hartono

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Abstract

Industrial Revolution 4.0 focuses all elements of industry to enter the digital era of governance with a variety of systems, which have been created to provide easy management support, consistency of production, maintain product quality and so on. In agriculture and plantations, the collaborative utilization of detection systems from sensors such as temperature, humidity and light intensity, as well as fuzzy logic algorithm approaches, is expected to produce adaptive operational auxiliary systems. Study for the conditioning of oyster mushroom cultivation room, with research environmental data in the form of temperatures ranging from 15-33 Celsius which will be used for hot and cold classification, humidity 47-99 %RH for classification of high and low humidity conditions and light intensity in the range of values of 80-800 lumens for the classification of dark and bright conditions. The process approaches a combination of rules in forming inference and defuzzification machines that are close to the expected real value. Tsukamoto's method, which was tested in this system research, was able to strengthen the form of fuzzy inference machines to assist in adaptive management of modern cultivation.

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农业系统中的自适应模糊

工业革命4.0使工业的所有要素都以各种系统进入数字治理时代，这些系统的创建是为了提供易于管理的支持，生产的一致性，保持产品质量等。在农业和种植园中，温度、湿度和光照强度等传感器的检测系统以及模糊逻辑算法方法的协同利用有望产生自适应的操作辅助系统。对平菇栽培室的调节进行研究，研究环境数据的形式为温度15-33摄氏度，用于冷热分类，湿度47- 99% RH用于高湿和低湿分类，光强在80-800流明范围内用于暗明分类。该过程在形成接近期望真实值的推理和去模糊化机器时接近规则的组合。本系统研究验证了冢本的方法，强化了模糊推理机的形式，辅助现代养殖的适应性管理。

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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IJAIT (International Journal of Applied Information Technology)

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