2020年度 人工知能学会全国大会(第34回)

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[2O4-GS-13] AI応用: 農林水産

2020年6月10日(水) 13:50 〜 15:30 O会場 (jsai2020online-15)

座長:小林一樹(信州大学)

[2O4-GS-13-01] Environmental control design based on optimization of the multi-grid wireless sensors in a greenhouse eggplant cultivation facility

〇Md Parvez Islam1、Hisashi Matsugi2、Shizu Itaka1、Kenichi Tokuda1、Nobuo Kochi1、Unseok Lee1 (1.The National Agriculture and Food Research Organization (NARO)、2.Kochi Prefectural Agricultural Innovation Promotion Division )

キーワード:Microclimate, Multi-grid, Sensors, Optimal control, Greenhouse

The greenhouse microclimate is an uncertain nonlinear system and affected by various physico-chemical processes, such as heat and mass transfer between plants, air, growing condition and the plastic cover, plants photosynthesis rate, cultivation methods, CO2 concentration, solar radiation, atmospheric RH, temperature, etc. Growers continuously supplied hot air and CO2 inside the greenhouse for cultivating eggplant during winter season. This causes ununiform distribution of CO2, RH and temperature inside the different area of the greenhouse and potentially risk against disease and pest breakout, water stress condition. Therefore, the quality and accuracy of the microclimate monitoring data for optimal control of the greenhouse microclimate has a great influence on ensuring the high crop yield with good quality throughout the year. In this experiment, we divided the greenhouse into 20 subzones and sensors were setup into three layers (top, middle, bottom). Total 72 wireless sensors (48 temperature sensors, 9 solar radiation sensors, 16 CO2 and RH sensors) with 4 mobile base stations were setup for the greenhouse area of 2910m2. In this paper, we investigated the accuracy, continuation and correlation of the different parameters to optimize the number of sensors for eggplant cultivation all the year round inside a solar type greenhouse.

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