Application of Partial Least Squares (PLS) Regression to Control Light Source for <i>Solanum lycopersicum</i> Seedling Growth in Plant Factory with Artificial Lighting
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- Naito Hirotaka
- Graduate School & Faculty of Bioresources, Department of Environmental Science and Technology Course of Environment Oriented Information and System
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- Yoshida Riki
- Graduate School & Faculty of Bioresources, Department of Environmental Science and Technology Course of Environment Oriented Information and System
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- Amano Takahiro
- Graduate School & Faculty of Bioresources, Department of Environmental Science and Technology Course of Environment Oriented Information and System
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- Morio Yoshinari
- Graduate School & Faculty of Bioresources, Department of Environmental Science and Technology Course of Environment Oriented Information and System
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- Murakami Katsusuke
- Graduate School & Faculty of Bioresources, Department of Environmental Science and Technology Course of Environment Oriented Information and System
抄録
<p>The use of LEDs as a light source in plant factories with artificial lighting is expected to reduce costs, but it has been reported that some crops do not grow as expected due to differences in the wavelength of the light source. Therefore, it is necessary to design LEDs with the appropriate wavelength for each crop to be grown. On the other hand, there is research toward the realization of smart plant factories that utilize artificial intelligence, and artificial intelligence may contribute to the design of the light environment in plant factories. In this study, we selected mini-tomatoes as a model crop, and prepared fluorescent lamps and LEDs as the light environment during seedling growth, respectively, and searched for suitable light source wavelengths while investigating the relationship with growth conditions using statistical analysis methods, one of the artificial intelligence techniques. We investigated the relationship between multiple light environments, PPFD, R/B ratio, and spectrum of wavelengths respectively, using LEDs, fluorescent lamps, and dimming filters, and growth indices stem diameter in order to clarify the light environments that contribute to growth. The correlation between the measured light environment and crop growth results was objectively shown by PLS regression analysis, and the contributing wavelengths were explored by calculating the selectivity ratio and regression coefficient. As a result, it was suggested that stem diameter was promoted at around 550 nm and 630 nm, and suppressed at around 460 nm.</p>
収録刊行物
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- Journal of Science and Technology in Lighting
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Journal of Science and Technology in Lighting 46 (0), 24-29, 2023-03-15
一般社団法人 照明学会
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詳細情報 詳細情報について
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- CRID
- 1390295879373505536
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- ISSN
- 24323233
- 24323225
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- 本文言語コード
- en
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- データソース種別
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- JaLC
- Crossref
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- 抄録ライセンスフラグ
- 使用不可