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    Spectral irradiance simulation for evaluating light environments for indoor plants

    New search for: Sugano, Soma
    New search for: Nitta, Ryo
    New search for: Shindo, Kan
    New search for: Nomoto, Akihisa
    New search for: Yoda, Shu
    New search for: Shigemura, Tamaho
    New search for: Ishii, Masahisa
    New search for: Tanabe, Shin‐ichi

    In recent years, interest in biophilic design and indoor greenery has increased. However, the growth of indoor plants may become stunted under unfavorable light conditions. Therefore, we must evaluate the light environments required for indoor plants to thrive. We propose a new method to assess indoor light environments for indoor plants by using spectral irradiance simulation. We verify the accuracy of the spectral irradiance simulation via actual measurements in a university classroom. Additionally, we confirm the calculation accuracy of the photosynthetic photon flux density, which is strongly correlated with photosynthesis in plants. We evaluate indoor light environments for indoor plants in 3D models by applying a few concepts from plant physiology.

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    Spectral irradiance simulation for evaluating light environments for indoor plants

    New search for: Sugano, Soma
    New search for: Nitta, Ryo
    New search for: Shindo, Kan
    New search for: Nomoto, Akihisa
    New search for: Yoda, Shu
    New search for: Shigemura, Tamaho
    New search for: Ishii, Masahisa
    New search for: Tanabe, Shin‐ichi

    In recent years, interest in biophilic design and indoor greenery has increased. However, the growth of indoor plants may become stunted under unfavorable light conditions. Therefore, we must evaluate the light environments required for indoor plants to thrive. We propose a new method to assess indoor light environments for indoor plants by using spectral irradiance simulation. We verify the accuracy of the spectral irradiance simulation via actual measurements in a university classroom. Additionally, we confirm the calculation accuracy of the photosynthetic photon flux density, which is strongly correlated with photosynthesis in plants. We evaluate indoor light environments for indoor plants in 3D models by applying a few concepts from plant physiology.

    Access

    Download

    Spectral irradiance simulation for evaluating light environments for indoor plants

    New search for: Sugano, Soma
    New search for: Nitta, Ryo
    New search for: Shindo, Kan
    New search for: Nomoto, Akihisa
    New search for: Yoda, Shu
    New search for: Shigemura, Tamaho
    New search for: Ishii, Masahisa
    New search for: Tanabe, Shin‐ichi

    In recent years, interest in biophilic design and indoor greenery has increased. However, the growth of indoor plants may become stunted under unfavorable light conditions. Therefore, we must evaluate the light environments required for indoor plants to thrive. We propose a new method to assess indoor light environments for indoor plants by using spectral irradiance simulation. We verify the accuracy of the spectral irradiance simulation via actual measurements in a university classroom. Additionally, we confirm the calculation accuracy of the photosynthetic photon flux density, which is strongly correlated with photosynthesis in plants. We evaluate indoor light environments for indoor plants in 3D models by applying a few concepts from plant physiology.

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    Download

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    Title:

    Spectral irradiance simulation for evaluating light environments for indoor plants

    Contributors:

    Sugano, Soma (author) / Nitta, Ryo (author) / Shindo, Kan (author) / Nomoto, Akihisa (author) / Yoda, Shu (author) / Shigemura, Tamaho (author) / Ishii, Masahisa (author) / Tanabe, Shin‐ichi (author)

    Published in:

    Japan Architectural Review ; 4 ; 649-659

    Publication date:

    2021-10-01

    Size:

    11 pages

    ISSN:

    2475-8876

    DOI:

    https://doi.org/10.1002/2475-8876.12246

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    biophilic design , indoor greenery , photosynthetic photon flux density , simulation , spectral irradiance

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