水培温室模糊控制系统的设计、开发与遗传算法优化

IF 0.8 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
H. Khafajeh, A. Banakar, S. Minaei, M. Delavar
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引用次数: 0

摘要

研究目的:水培温室模糊控制系统的设计与开发。研究领域:使用从文献中获得的实验数据进行评估。在伊朗德黑兰的一个温室中进行了模糊控制水培温室系统的构建和评估。材料和方法:控制温室环境条件,包括温度、湿度和二氧化碳。模糊控制器的设计始于语言变量、过程状态以及输入和输出变量的选择。模糊控制系统由三个模块组成:1)模糊模块,2)成本函数,3)用于温室环境条件调整的遗传算法。下一步是选择一组语言规则和模糊推理过程的类型。规则设置一次,推理后需要指定模糊集和输出值,同时开发非模糊策略。主要结果:模糊控制系统提供的昼夜平均温度分别为34.25°C和23.22°C,经过优化后分别提高到31.17°C和21.96°C。昼夜平均湿度分别为39.4%和56.5%,优化后分别为60.22%和74.59%。控制系统还实现了在CO2量方面的期望条件。研究重点:结果表明,采用遗传算法优化后,温室的温度和相对湿度测量值得到了改善。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A hydroponic greenhouse fuzzy control system: design, development and optimization using the genetic algorithm
Aim of study: The design and development of a hydroponic greenhouse fuzzy control system. Area of study: The evaluation was performed using experimental data obtained from the literature. The construction and evaluation of the fuzzy control hydroponic greenhouse system was carried out in a greenhouse in Tehran, Iran. Material and methods: The greenhouse environmental conditions, including temperature, humidity, and carbon dioxide, were controlled. The design of a fuzzy controller begun with the selection of linguistic variables, process status, and input and output variables. The fuzzy control system consisted of three modules: 1) fuzzy module, 2) cost function, and 3) genetic algorithm for the adjustment of the greenhouse environmental conditions.The next step was to select a set of linguistic rules and the type of fuzzy inference process. The rules were set once, and the fuzzy set and output value needed to be specified after the inference, along with the development of a non-fuzzy strategy. Main results: The mean temperatures provided by the fuzzy control system during the day and night were 34.25°C and 23.22°C, respectively, which were improved to 31.17°C and 21.96°C after optimization. The mean humidity was 39.4% and 56.5% during the day and the night, respectively, which turned 60.22% and 74.59% after optimization. The control system also achieved desirable conditions in terms of CO2 amount. Research highlights: The results showed that the measured values of temperature and relative humidity of the greenhouse were improved after optimization with genetic algorithm.
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来源期刊
Spanish Journal of Agricultural Research
Spanish Journal of Agricultural Research 农林科学-农业综合
CiteScore
2.00
自引率
0.00%
发文量
60
审稿时长
6 months
期刊介绍: The Spanish Journal of Agricultural Research (SJAR) is a quarterly international journal that accepts research articles, reviews and short communications of content related to agriculture. Research articles and short communications must report original work not previously published in any language and not under consideration for publication elsewhere. The main aim of SJAR is to publish papers that report research findings on the following topics: agricultural economics; agricultural engineering; agricultural environment and ecology; animal breeding, genetics and reproduction; animal health and welfare; animal production; plant breeding, genetics and genetic resources; plant physiology; plant production (field and horticultural crops); plant protection; soil science; and water management.
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