Updated on 2024/03/25

写真a

 
Fukuda Hirokazu
 
Organization
Graduate School of Engineering Division of Mechanical Engineering Professor
School of Engineering Department of Mechanical Engineering
Title
Professor
Affiliation
Institute of Engineering

Position

  • Graduate School of Engineering Division of Mechanical Engineering 

    Professor  2022.04 - Now

  • School of Engineering Department of Mechanical Engineering 

    Professor  2022.04 - Now

Degree

  • 博士(工学) ( Others )

Research Areas

  • Environmental Science/Agriculture Science / Agricultural environmental engineering and agricultural information engineering

  • Natural Science / Mathematical physics and fundamental theory of condensed matter physics

  • Environmental Science/Agriculture Science / Agricultural environmental engineering and agricultural information engineering

  • Life Science / Biophysics

  • Natural Science / Mathematical physics and fundamental theory of condensed matter physics

Research Interests

  • 結合振動子系

  • 概日時計

  • 植物工場

  • サーカディアンリズム

Research subject summary

  • 次世代植物工場システムの研究開発

  • 体内時計制御工学

Research Career

  • 体内時計制御工学

    体内時計、同期現象、植物工場、数理モデル、ルシフェラーゼ発光 

Professional Memberships

  • 日本バーチャルリアリティ学会

    2022 - Now   Domestic

  • 日本学術会議

    2018.08 - 2020.09   Domestic

  • CIGR International Commission of Agricultural and Biosystems Engineering (国際農業工学会), Working group of Plant Factory and Intelligence Greenhouse

    2016 - Now   Overseas

  • 日本生物環境工学会

    2005 - Now   Domestic

  • 食料農業工学会

    2005 - Now   Domestic

  • 日本時間生物学会

    2004 - Now   Domestic

  • 日本物理学会

      Domestic

  • 日本機械学会

      Domestic

  • 食料農業工学会

  • JAPANESE SOCIETY OF AGRICULTURAL, BIOLOGICAL AND ENVIRONMENTAL ENGINEERS AND SCIENTISTS

  • 日本物理学会

  • 日本機械学会

  • 日本時間生物学会

  • 日本学術会議

  • CIGR International Commission of Agricultural and Biosystems Engineering

  • ファイトテクノロジー研究会

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Awards

  • 伊都賞

    2022.09   日本生物環境工学会   複雑環境下における概日時計の振舞いを支配する「位相応答場」の基礎研究

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    Country:Japan

  • 伊都賞

    2022.09   日本生物環境工学会   複雑環境下における概日時計の振舞いを支配する「位相応答場」の基礎研究

  • パラダイム・シフト賞

    2020.12   日本生物環境工学会  

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    Country:Japan

  • パラダイム・シフト賞

    2020.12   日本生物環境工学会   SPA基礎モデルの樹立と展開

  • 特別研究功績賞(生物環境調節学)

    2019.09   日本生物環境工学会  

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    Country:Japan

  • 植物工場普及特別功績賞

    2019.09   日本生物環境工学会  

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    Country:Japan

  • 特別研究功績賞(生物環境調節学)

    2019.09   日本生物環境工学会   植物工場生産安定化技術への概日時計制御理論の組込みによるSPA基礎モデルの構築

  • 植物工場普及特別功績賞

    2019.09   日本生物環境工学会   植物工場生産安定化技術への概日時計制御理論の組込みによるSPA基礎モデルの構築

  • 機構長教育奨励賞

    2019.03   大阪府立大学  

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    Country:Japan

  • 機構長教育奨励賞

    2019.03   大阪府立大学   初年次ゼミナール「植物工場の科学技術」

  • 学術賞

    2018.09   日本生物環境工学会  

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    Country:Japan

  • 学術奨励賞

    2013.09   日本生物環境工学会  

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    Country:Japan

  • SI2011優秀講演賞 「植物工場における体内時計の制御」

    2012.12   計測自動制御学会SI部門  

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    Country:Japan

  • 論文賞

    2012.09   日本生物環境工学会  

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    Country:Japan

  • 50周年記念貢献賞

    2012.09   日本生物環境工学会  

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    Country:Japan

  • 第16回日本時間生物学会学術大会 優秀ポスター賞(基礎・科学部門)

    2009.10   日本時間生物学会  

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    Country:Japan

  • 日本生物環境工学会西日本支部功績賞

    2007.11   日本生物環境工学会西日本支部  

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    Country:Japan

  • 日本生物環境工学会創立記念大会 ベストプレゼンテーション賞

    2007.06   日本生物環境工学会  

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    Country:Japan

  • CIGR Armand Blanc Prize賞

    2006.09      

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Job Career (off-campus)

  • Osaka Metroporitan University   Graduate School of Engineering Division of Mechanical Engineering

    2022.04 - Now

  • 大阪府立大学大学院   工学研究科

    2018.04 - 2022.03

  • 科学技術振興機構 さきがけ研究者 兼任

    2015.12 - 2019.03

Papers

  • 時計細胞集団の同期状態に着目した位相応答曲線の効率的な測定方法 Reviewed

    福田弘和, 増田亘作

    時間生物学(日本時間生物学会)   28 ( 2 )   94 - 101   2022.11

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    Authorship:Lead author, Corresponding author  

  • Application of time lags between light and temperature cycles for growth control based on the circadian clock of Lactuca sativa L. seedlings Reviewed

    Kosaku Masuda, Tatsuya Yamada, Yuya Kagawa, Hirokazu Fukuda

    Frontiers in Plant Science   13   994555   2022.10( ISSN:1664-462X ( eISSN:1664-462X

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    The circadian clock plays an important role in agriculture, especially in highly controlled environments, such as plant factories. However, multiple environmental factors have an extremely high degree of freedom, and it is difficult to experimentally search for the optimal design conditions. A recent study demonstrated that the effect of time lags between light and temperature cycles on plant growth could be predicted by the entrainment properties of the circadian clock in Arabidopsis thaliana. Based on this prediction, it was possible to control plant growth by adjusting the time lag. However, for application in plant factories, it is necessary to verify the effectiveness of this method using commercial vegetables, such as leaf lettuce. In this study, we investigated the entrainment properties of the circadian clock and the effect of the time lag between light and temperature cycles on circadian rhythms and plant growth in Lactuca sativa L. seedlings. For evaluation of circadian rhythms, we used transgenic L. sativa L. with a luciferase reporter in the experiment and a phase oscillator model in the simulation. We found that the entrainment properties for the light and temperature stimuli and the effects of time lags on circadian rhythm and growth were similar to those of A. thaliana. Moreover, we demonstrated that changes in growth under different time lags could be predicted by simulation based on the entrainment properties of the circadian clock. These results showed the importance of designing a cultivation environment that considers the circadian clock and demonstrated a series of methods to achieve this.

    DOI: 10.3389/fpls.2022.994555

    PubMed

  • Unstable Phase Response Curves Shown by Spatiotemporal Patterns in the Plant Root Circadian Clock Reviewed

    Kosaku Masuda, Hirokazu Fukuda

    Journal of Biological Rhythms   36 ( 5 )   432 - 441   2021.10( ISSN:0748-7304 ( eISSN:1552-4531

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    Phase response curves (PRCs) play important roles in the entrainment of periodic environmental cycles. Measuring the PRC is necessary to elucidate the relationship between environmental cues and the circadian clock. Conversely, the PRCs of plant circadian clocks are unstable due to multiple factors such as biotic/abiotic noise, individual differences, changes in amplitude, growth stage, and organ/tissue specificity. However, evaluating the effect of each factor is important because PRCs are commonly obtained by determining the response of many individuals, which include different amplitude states and organs. The plant root circadian clock spontaneously generates a spatiotemporal pattern called a stripe pattern, whereby all phases of the circadian rhythm exist within an individual root. Therefore, stimulating a plant root expressing this pattern enables phase responses at all phases to be measured using an individual root. In this study, we measured PRCs for thermal stimuli using this spatiotemporal pattern method and found that the PRC changed asymmetrically with positive and negative temperature stimuli. Individual differences were observed for weak but not for strong temperature stimuli. The root PRC changed depending on the amplitude of the circadian rhythm. The PRC in the young root near the hypocotyl was more sensitive than those in older roots or near the tip. Simulation with a phase oscillator model revealed the effect of measurement and internal noises on the PRC. These results indicate that instability in the entrainment of the plant circadian clock involves multiple factors, each having different characteristics. These results may help us understand how plant circadian clocks adapt to unstable environments and how plant circadian clocks with different characteristics, such as organ, age, and amplitude, are integrated within individuals.

    DOI: 10.1177/07487304211028440

    Other URL: http://journals.sagepub.com/doi/full-xml/10.1177/07487304211028440

  • Unstable Phase Response Curves Shown by Spatiotemporal Patterns in the Plant Root Circadian Clock Reviewed

    Kosaku. Masuda ,Hirokazu Fukuda

    J. Biological Rhythms 雑誌   Vol 36 2021年第5巻   432 - 441   2021.07

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    Kind of work:Joint Work  

  • The singularity response reveals entrainmentproperties of the plant circadian clock Reviewed

    Kosaku Masuda, Isao T. Tokuda, Norihito Nakamichi, Hirokazu Fukuda

    Nature Communications   2021.02

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    DOI: 10.1038/s41467-021-2116

  • Time Lag Between Light and Heat DiurnalCycles Modulates CIRCADIANCLOCK ASSOCIATION 1 Rhythmand Growth in Arabidopsis thaliana Reviewed

    Kosaku Masuda, Tatsuya Yamada, Yuya Kagawa, Hirokazu Fukuda

    Frontiers in Plant Science   11   2021.02

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    DOI: 10.3389/fpls.2020.614360

  • Nondestructive estimation of circadian time in harvested green perilla leaves using hyperspectral data Reviewed

    Shogo Nagano, Yusuke Tanigaki, Hirokazu Fukuda

    Environmental Control in Biology   58 ( 4 )   91 - 97   2020.10( ISSN:1880-554X ( eISSN:1883-0986

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    © 2020 Biotron Institute. All rights reserved. The circadian clock, an internal oscillator with a period of approximately 24 hours, plays an important role in the regulation of biological processes, and an understanding of circadian rhythms can be employed to improve the quality of plant production. Many studies have measured the circadian rhythms of plants and estimate their circadian times. However, the circadian time estimation methods used in previous studies are difficult to apply to commercial crops because they require extraction of plant contents such as RNA, which involves destroying plant tissues. In this study, we sought to develop a nondestructive method for estimating circadian time in harvested leaves of green perilla (Perilla frutescens var. crispa f. viridis). The results of RNA sequencing (RNA-Seq) show that the gene expression of perillyl alcohol depend on the circadian time. A hyperspectral camera captured the light reflectance of 141 wavebands from 350 to 1,050 nm on leaves, and machine learning using the reflectance data successfully estimated the circadian time corresponding to the harvest time. The study results demonstrate the potential for the nondestructive use of hyperspectral reflectance data in circadian time estimation and its applicability to improving the quality of plant production.

    DOI: 10.2525/ECB.58.91

  • The singularity response reveals entrainmentproperties of the plant circadian clock Reviewed

    Kosaku Masuda, Isao T. Tokuda, Norihito Nakamichi, Hirokazu Fukuda

    Nature Communications 雑誌   12   2020.10

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    Kind of work:Joint Work  

  • Nondestructive Estimation of Circadian Time in Harvested Green Perilla Leaves Using Hyperspectral Data Reviewed

    Shogo NAGANO, Yusuke TANIGAKI, Hirokazu FUKUDA

    Environmental Control in Biology 雑誌   Volume 58 Issue 4   91 - 97   2020.10

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    Kind of work:Joint Work  

  • Simplification of circadian rhythm measurement using species-independent time-indicated genes. Current Plant Biology, Reviewed

    Yusuke Tanigaki, Takanobu Higashi, Kotaro Takayama, Atsushi J. Nagano, Mie N. Honjo, Ayumi Tezuka, Mari Kamitani, Hirokazu Fukuda.

    Elsevier 雑誌   vol.19   100118(1 - 8).   2019.09

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    Kind of work:Joint Work  

  • Simplification of circadian rhythm measurement using species-independent time-indicated genes Reviewed

    Yusuke Tanigaki, Takanobu Higashi, Kotaro Takayama, Atsushi J. Nagano, Mie N. Honjo, Ayumi Tezuka, Mari Kamitani, Hirokazu Fukuda

    CURRENT PLANT BIOLOGY   19   2019.09( eISSN:2214-6628

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)  

    The circadian rhythm varies among species, and the distribution of common circadian rhythm-related genes in plants is not yet clearly understood. In this study, we analyzed the transcriptome data from plants of three different species (Solanum lycopersicum, Arabidopsis thaliana, and Lactuca sativa) and their circadian rhythms. Homology of the gene sequences was analyzed. Thirty genes containing time information were found to be common among the three species studied and were used to measure the circadian rhythm. Because 22 of these 30 genes were associated with photosynthesis, we suggest that light control could be used to regulate the circadian rhythm. Currently, a high-cost transcriptome analysis is required for the measurement of circadian rhythm; however, our results showed that it was possible to reduce the number of target genes to 30 and, hence, to reduce the cost of the analysis. Our findings will enable easier estimation of circadian time, which, in turn, will facilitate environmental control for plant growth through better control of circadian time, thus facilitating better crop management practice.

    DOI: 10.1016/j.cpb.2019.100118

  • Leaf Movement Based Growth Prediction Model Using Optical Flow Analysis and Machine Learning in Plant Factory Reviewed

    Shogo Nagano, Shogo Moriyuki, Kazumasa Wakamori, Hiroshi Mineno, Hirokazu Fukuda

    Frontiers in Plant Science 雑誌   2019.03

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    Kind of work:Joint Work  

  • Leaf-Movement-Based Growth Prediction Model Using Optical Flow Analysis and Machine Learning in Plant Factory Reviewed

    Shogo Naganou, Shogo Moriyuki, Kazumasa Wakamori, Hiroshi Mineno, Hirokazu Fukuda

    FRONTIERS IN PLANT SCIENCE   10   227 - 227   2019.03( ISSN:1664-462X ( eISSN:1664-462X

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    Productivity stabilization is a critical issue facing plant factories. As such, researchers have been investigating growth prediction with the overall goal of improving productivity. The projected area of a plant (PA) is usually used for growth prediction, by which the growth of a plant is estimated by observing the overall approximate movement of the plant. To overcome this problem, this study focused on the time-series movement of plant leaves, using optical flow (OF) analysis to acquire this information for a lettuce. OF analysis is an image processing method that extracts the difference between two consecutive frames caused by the movement of the subject. Experiments were carried out at a commercial large-scale plant factory. By using a microcomputer with a camera module placed above the lettuce seedlings, images of 338 seedlings were taken every 20 min over 9 days (from the 6th to the 15th day after sowing). Then, the features of the leaf movement were extracted from the image by calculating the normal-vector in the OF analysis, and these features were applied to machine learning to predict the fresh weight of the lettuce at harvest time (38 days after sowing). The growth prediction model using the features extracted from the OF analysis was found to perform well with a correlation ratio of 0.743. Furthermore, this study also considered a phenotyping system that was capable of automatically analyzing a plant image, which would allow this growth prediction model to be widely used in commercial plant factories.

    DOI: 10.3389/fpls.2019.00227

    PubMed

  • Precise Control of Plant Circadian Rhythm by Visible Lighting Reviewed

    Journal of the Japan Society of Infrared Science and Technolog   28 ( 2 )   39 - 45   2019.02

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  • Utilization Techniques of Circadian Clock Reviewed

    FUKUDA Hirokazu

    Shokubutsu Kankyo Kogaku   31 ( 4 )   189 - 197   2019( ISSN:1880-2028

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    Authorship:Lead author, Corresponding author  

    DOI: 10.2525/shita.31.189

    CiNii Article

  • Profit Models Based on the Growth Dynamics of Lettuce Populations in a Plant Factory Reviewed

    Shogo Moriyuki, Hiroaki Kaneda, Yusaku Miyagi,Nobuhiro Sugimura, Hirokazu Fukuda

    Environmental Control in Biology 雑誌   56 ( 4 )   143 - 148   2018.10

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    Kind of work:Joint Work  

  • Growth and Environmental Change-Independent Genes Associated with Clock Gene TOC1 in Green Perilla Reviewed

    Yusuke Tanigaki, Takanobu Higashi, Atsushi J. Nagano, Mie N. Honjo, Hirokazu Fukuda

    Environmental Control in Biology 雑誌   56 ( 4 )   137 - 142   2018.10

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    Kind of work:Joint Work  

  • Spatiotemporal analysis of localized circadian arrhythmias in plant roots Reviewed

    Naoki Seki, Yusuke Tanigaki, Atsumasa Yoshida, Hirokazu Fukuda

    Environmental Control in Biology 雑誌   56 ( 3 )   93 - 97   2018.07

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    Kind of work:Joint Work  

  • Estimation of the circadian phase by oscillatory analysis of the transcriptome in plants Reviewed

    Mari Takeoka, Takanobu Higashi, Mie N. Honjo, Ayumi Tezuka, Atsushi J. Nagano,Yusuke Tanigaki, Hirokazu Fukuda

    Environmental Control in Biology 雑誌   56 ( 2 )   67 - 72   2018.04

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    Kind of work:Joint Work  

  • Multicellularity enriches the entrainment of Arabidopsis circadian clock Reviewed

    K.Mtsuda,R.Kitaoka,K.Ukai,I.T.Tokuda,H.Fukuda

    Science Advances 雑誌   3 ( 10 )   e1700808(1 - 9)   2017.10

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    Kind of work:Joint Work  

  • Transcriptome analysis of a cultivar of green perilla(Perilla Frutescens)using genetic similarity with other plants via public databases Reviewed

    Yusuke Tanigaki, Takanobu Higashi, Atsushi J Nagano, Mie N. Honjo, Hirokazu Fukuda

    Environment Control in Biology 雑誌   55 ( 2 )   77 - 83   2017.03

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  • Oscillatory analysis of the lettuce transcriptome under constant light and light–dark conditions Reviewed

    Takanobu Higashi, Koh Aoki, Atsushi J. Nagano, Mie N. Honjo and Hirokazu Fukuda

    Frontiers in Plant Science 雑誌   7 ( 1114 )   1 - 10   2016.07

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    Kind of work:Joint Work  

  • Effects of plant density and light intensity on the production of a vaccine material for swine edema disease in transgenic lettuce Reviewed

    K.Okamura,Y.Matsuda,K.Igari,K.Kto,H.Asano,T.Matsui,E.Takita,K.Sawada,H.Fukuda,H.Murase

    Environmental Control in Biology 雑誌   51 ( 4 )   207 - 213   2014.12

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  • 温度変動が誘起する発芽期における概日リズムの集団同期 Reviewed

    有働龍太、守行正悟、鵜飼和也、福田弘和

    日本冷凍空調学会論文集 雑誌   31 ( 3 )   359 - 365   2014.05

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    Kind of work:Joint Work  

  • Quantitative Analysis of Phase Wave of Gene Expression in the Mammalian Central Circadian Clock Network Reviewed

    Hirokazu Fukuda, Isao Tokuda, Seiichi Hashimoto, Naoto Hayasaka

    PLoS one 雑誌   6 ( 8 )   2011.08

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  • Early Diagnosis of Productivity Through a Clock Gene Promoter Activity Using a Luciferase Bioluminescence Assay in Arabidopsis thaliana Reviewed

    Hirokazu Fukuda, Takatoshi Ichino, Takao Kondo, Haruhiko Murase

    Environment Control in Biology (in press) 雑誌   49 ( 2 )   51 - 60   2011.04

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    Kind of work:Joint Work  

  • Production of biologically active human thioredoxin 1 protein in lettuce chloroplasts Reviewed

    Soon Lim, Hiroki Ashida, Rie Watanabe, Koji Inai, Yun-Soo Kim, Keiko Mukougawa, Hirokazu Fukuda, Ken-ichi Tomizawa, Kei-ichi Ushiyama, Hiroshi Asao, Masahiro Tamoi, Hiroshi Masutani, Shigeru Shigeoka, Junji Yodoi, Akiho Yokota

    Plant Mol Biol 雑誌   2011.02

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    Kind of work:Joint Work  

  • Effect of a Dark Pulse Under Continuous Red Light on the Aravidopsis thaliana Circadian Rhythm Reviewed

    Hirokazu Fukuda, Yu Uchida, Norihito Nakamichi

    Environment Control in Biology 雑誌   2008.07

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    Kind of work:Joint Work  

  • Synchronization of Plant Circadian Oscillators with a Phase Delay Effect of Vein Network Reviewed

    H. Fukuda, N. Nakamichi, M. Hisatsune, H. Murase, T. Mizuno

    Physical Review Letters 雑誌   99   2007.08

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    Kind of work:Joint Work  

  • Non-destructive sensing and its inverse model for diagnosing quality degradation using texture analysis and artificial neural network Reviewed

    M. Ushada, H. Murase, H. Fukuda

    Computers and Electronics in Agriculture 雑誌   ( 57 )   149 - 165   2007.04

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    Kind of work:Joint Work  

  • 植物のサーカディアン振動子集団における維管束ネットワークの影響

    福田弘和、中道範人、水野猛、村瀬治比古

    物性研究(研究会報告「生命リズムと振動子ネットワーク」) 雑誌   87   2007.04

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    Kind of work:Joint Work  

  • 安全安心レタスから医薬用レタスまで-遺伝子発現制御植物工場の開発-

    福田弘和

    SHITA REPORT(日本生物環境工学会シンポジウム講演要旨集) 雑誌   ( 24 )   82 - 92   2007.04

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    Kind of work:Single Work  

  • Entrainment in a chemical oscillator chain with a pacemaker Reviewed

    Hirokazu Fukuda, Naoki Tamari, Hiroki Morimura, Shoichi Kai

    The Journal of Physical Chemistry A 雑誌   109   11250 - 11254   2005.09

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    Kind of work:Joint Work  

  • Global synchronization in two-dimensional lattices of discrete Belousov-Zhabotinsky oscillators Reviewed

    Hirokazu Fukuda, Hiroki Morimura, Shoichi Kai

    Physica D 雑誌   205   80 - 86   2005.02

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    Kind of work:Joint Work  

  • Circadian rhythm formation in plant seedling: Global synchronization and bifurcation as a coupled nonlinear oscillator system Reviewed

    Hirokazu Fukuda, Jun-ichi Kodama, Shoichi Kai

    BioSystems 雑誌   77   41 - 46   2004.04

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    Kind of work:Joint Work  

  • Noise-induced Entrainment of Human Brain Waves: Stochastic Synchronization Reviewed

    Osamu Inomoto, Toshio Mori, Hirokazu Fukuda, Shoichi Kai

    Neuroscience Research 雑誌   50   2004.04

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    Kind of work:Joint Work  

  • Stochastic Synchronization in Two-Dimensional Coupled Lattice Oscillators in the Belousov-Zhabotinsky Reaction Reviewed

    Hirokazu FUKUDA, Hikaru NAGANO, Shoichi KAI

    Journal of the Physical Society of Japan 雑誌   72   487 - 490   2003.03

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    Kind of work:Joint Work  

  • Formation mechanism of circadian rhythm in Plant Germination as a Coupled Nonlinear Cooperative Phenomenon Reviewed

    Hirokazu Fukuda, Shoichi Kai

    Technology Report of Kyushu University 雑誌   ( 75 )   107 - 113   2002.04

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    Kind of work:Joint Work  

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Books and Other Publications

  • 研究開発の俯瞰報告書 ライフサイエンス・臨床医学分野(2021年)

    福田弘和(一部執筆)( Role: Joint author)

    国立研究開発法人科学技術振興機構(JST) 研究開発戦略センター(CRDS)  2021.10  ( ISBN:978-4-86579-293-5

  • 新スマート農業~進化する農業情報利用~

    農業情報学会 ( Role: Joint author)

    農林統計出版  2019.05 

  • 新スマート農業~進化する農業情報利用~

    福田弘和( Role: Sole author ,  :「6-7-3植物工場での生育モニタリング」(342-343頁))

    農林統計出版  2019.05 

  • Plant factory using artificial light : adapting to environmental disruption and clues to agricultural innovation

    安保 正一, 福田 弘和, 和田 光生

    Elsevier  2019  ( ISBN:9780128139738

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  • Plant factory using artificial light : adapting to environmental disruption and clues to agricultural innovation

    安保, 正一, 福田, 弘和, 和田, 光生

    Elsevier  2019  ( ISBN:9780128139738

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    Total pages:xxviii, 406 p.  

    CiNii Books

  • アグリフォトニクスⅢ ―植物工場の最新動向と将来展望―, 第11章大阪府立大学における植物工場の基盤研究 ―生体計測・制御技術―

    福田弘和,守行正悟,谷垣悠介( Role: Joint author)

    シーエムシー出版  2018.11 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Part Ⅲ.10) Plant factory and new renewable energy technology

    Masaya Matsuoka, Yu Horiuchi, Hirokazu Fukuda, Masakazu Anpo( Role: Joint author)

    Elsevier  2018.10 

  • Smart Plant Factory: The next generation indoor vertical farms (Chapter 22) Detection and Utilization of Biological Rhythms in Plant Factories

    Hirokazu Fukuda, Yusuke Tanigaki, Shogo Moriyuki( Role: Joint author)

    Springer  2018.10 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Introduction) Artificial Light-Type Plant Factories -Outline and a Vision for the future

    Masakazu Anpo, Hirokazu Fukuda, Teruo Wada( Role: Joint author)

    Elsevier  2018.10 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Part I.1.3) Characteristics of vegetable growing in plant factories and technical issues

    Hirokazu Fukuda, Teruo Wada( Role: Joint author)

    Elsevier  2018.10 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Part I.2.4) Control theory in the metabolic rhythms of plants

    Yusuke Tanigaki, Hirokazu Fukuda( Role: Joint author)

    Elsevier  2018.10 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Part Ⅲ.6.1) Fundamental Components and Points on Consider in the Design of a Plant Factory: An Example of OPU New-Generation Plant Factory

    Teruo Wada, Hirokauz Fukuda( Role: Joint author)

    Elsevier  2018.10 

  • Plant Factory Using Artificial Light - Adapting to environmental disruption and clues to agricultural innovation. (Part Ⅲ.6.2) Development of a Seedling Selection Robot Using Green Clock Technology

    Shogo Moriyuki, Hirokazu Fukuda( Role: Joint author)

    Elsevier  2018.10 

  • 植物学の百科事典,執筆担当「植物工場」

    福田弘和( Role: Sole author)

    日本植物学会  2016.06 

  • 体内時計の科学と産業応用:第16章 体内時計制御の植物工場への応用

    福田弘和( Role: Sole author)

    シーエムシー  2011.04 

  • プラントミメティックス-植物に学ぶ-第1編第2章「情報と輸送」第6節「植物のサーカディアンリズム形成」

    福田弘和,村瀬治比古( Role: Joint author)

    エヌ・ティー・エス  2006.05 

▼display all

MISC

  • 「本学会のパラダイムと学術用語」(第四回)

    福田弘和

    植物環境工学   33 ( 4 )   144 - 146   2021.12

  • Information Processing to Learn from Plants and Learn about Plants:Information Processing Technologies for Maximizing Plant Productivity in Plant Factories Reviewed

    62 ( 12 )   e19 - e21   2021.11

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    Authorship:Lead author  

  • ライフサイエンス・臨床医学分野 2.2 バイオエコノミー「植物工場」

    資料提供(福田弘和など)

    JST CRDS 研究開発の俯瞰報告書 (CRDS-FY2020-FR-04)   334 - 342   2021.03

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    Publishing type:Article, review, commentary, editorial, etc. (international conference proceedings)  

  • 令和の年頭に当たり,学会躍進のパラダイムを俯瞰する

    橋本 康, 野口 伸, 仁科 弘重, 吉田 敏, 後藤 英司, 清水 浩, 高山 弘太郎, 安永 円理子, 伊藤 博通, 福田 弘和

    植物環境工学 = Journal of Society of High Technology in Agriculture   32 ( 1 )   13 - 17   2020.03( ISSN:1880-2028

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  • Respect to the Beauty and Wisdom of Plants : Algorithms and Universities of Plant Factories

    13   4 - 7   2019

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Presentations

  • 植物概日時計における位相応答曲線の精密同定

    福田弘和

    日本睡眠学会第45回定期学術集会・第30回日本時間生物学会学術大会 合同大会  2023.09 

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    Presentation type:Oral presentation (general)  

  • Unityを用いた植物概日時計の複雑環境応答シミュレーション

    八木亮太, 青山尚暉, 福田弘和

    日本睡眠学会第45回定期学術集会・第30回日本時間生物学会学術大会 合同大会  2023.09 

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    Presentation type:Poster presentation  

  • 人工生成した気圧変動パルスに対するシロイヌナズナの概日リズム応答

    池田和輝, 土田勘介, 福田弘和

    日本睡眠学会第45回定期学術集会・第30回日本時間生物学会学術大会 合同大会  2023.09 

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  • 生物環境の凝縮空間CUBE:Unityによる複雑環境応答シミュレーション開発

    八木亮太, 福田弘和

    日本生物環境工学会2023年豊橋大会  2023.09 

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    Presentation type:Oral presentation (general)  

  • SPA基礎研究の機械情報工学的パラダイム・シフ ト

    福田弘和

    日本生物環境工学会2023年豊橋大会  2023.09 

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  • 連結DCファンを用いた大気潮汐シグナルの人工生成技術開発

    池田和輝, 土田勘介, 福田弘和

    日本生物環境工学会2023年豊橋大会  2023.09 

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    Presentation type:Poster presentation  

  • 物理学に基づく植物工場の実現を目指して

    福田弘和

    新学術領域研究「植物の周期と変調」三流派合同 解析道場プログラム  2023.09 

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    Presentation type:Oral presentation (general)  

  • 概日時計サイレンシング法を用いた滞在性微弱シグナル環境におけるリズム変調の解明

    福田弘和

    新学術領域研究領域会議2023夏  2023.07 

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    Presentation type:Oral presentation (general)  

  • 植物型3Dモデルを用いた位相応答場シミュレーション

    八木亮太, 福田弘和

    新学術領域研究領域会議2023夏  2023.07 

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    Presentation type:Poster presentation  

  • 微弱な大気圧変化に対する概日リズムの応答

    池田和輝, 福田弘和

    新学術領域研究領域会議2023夏  2023.07 

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    Presentation type:Poster presentation  

  • 植物の側根形成時における概日リズムの乱れについての研究

    小田彬人, 福田弘和

    食料農業工学会関西支部  2023.03 

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    Presentation type:Oral presentation (general)  

  • 薬剤投与による主観的昼と夜の比率変化に関する数理モデル解析

    田島優介, 藤本風太, 福田弘和

    食料農業工学会関西支部  2023.03 

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    Presentation type:Oral presentation (general)  

  • 画像処理による植物細胞間接触面積の算出方法

    豊嶋悠斗, 奥山瑞生, 福田弘和

    食料農業工学会関西支部  2023.03 

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  • 植物細胞格子における位相応答場を構築する位相応答シミュレーターの開発

    青山尚暉, 八木亮太, 福田弘和

    食料農業工学会関西支部  2023.03 

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    Presentation type:Oral presentation (general)  

  • 概日時計サイレンシング法を用いた滞在性微弱シグナル環境におけるリズム変調の解明

    福田弘和

    新学術領域「植物の周期と変調」 令和4年度 第2回領域会議  2023.01 

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    Presentation type:Oral presentation (general)  

  • 植物工場における生産安定化技術

    福田弘和

    植物工場にかかわる最新研究  2022.12 

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    Presentation type:Public lecture, seminar, tutorial, course, or other speech  

  • A platform technology for analysis and control of the plant circadian clock under complex environments

    Hirokazu Fukuda

    The XX CIGR World Congress 2022  2022.12 

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    Presentation type:Oral presentation (general)  

  • Accuracy evaluation of an estimation method for the time lag of chemical effect by an inverse problem of the phase response

    2022.12 

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    Presentation type:Poster presentation  

  • Evaluation of the penetrability of periodic atmospheric pressure signals in a culture medium for plant cultivation

    2022.12 

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    Presentation type:Poster presentation  

  • Verification of U-net and implementation of mask r-CNN in the calculation method of lettuce leaf area using the circadian rhythm in a plant factory

    2022.12 

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  • 植物工場の実際 「植物工場における生産安定化技術」

    福田弘和

    2022年度 スマートグリーンハウス指導者育成研修(PFCセミナーII)  2022.11 

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  • VR を用いた仮想空間における位相応答場の構築

    八木亮太, 福田弘和

    新学術領域研究「植物の周期と変調」第3回若手 WS  2022.11 

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  • 局部刺激で誘起する概日時計の位相特異点に関する数理モデル解析

    小田彬人, 福田弘和

    第39日本植物バイオテクノロジー学会(堺)大会  2022.09 

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  • 植物概日時計の位相応答場技術

    福田弘和

    第39日本植物バイオテクノロジー学会(堺)大会 シンポジウム  2022.09 

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    Presentation type:Oral presentation (invited, special)  

  • 概日時計細胞集団に対する光照射を用いた位相特異点生成についての数値解析

    小田彬人, 福田弘和

    日本生物環境工学会 2022年福岡大会  2022.09 

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  • 複雑環境下における概日時計の振舞いを支配する「位相応答場」の基礎研究

    福田弘和

    日本生物環境工学会 2022年福岡大会  2022.09 

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    Presentation type:Oral presentation (general)  

  • タイムラグのある局所外部入力に対する多細胞システムの動的応答特性の解析

    藤本風太, 福田弘和

    生命情報物理:新学術領域研究「情報物理学でひもとく生命の秩序と設計原理」 第5回領域会議  2022.06 

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  • 局所外部入力に対する概日時計細胞集団の同期応答特性の解析

    小田彬人, 福田弘和

    生命情報物理:新学術領域研究「情報物理学でひもとく生命の秩序と設計原理」 第5回領域会議  2022.06 

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    Presentation type:Poster presentation  

  • 位相応答曲線の同定法の比較

    福田弘和

    生命情報物理:新学術領域研究「情報物理学でひもとく生命の秩序と設計原理」 第5回領域会議  2022.06 

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    Presentation type:Poster presentation  

  • 概日時計サイレンシング法を用いた滞在性微弱シグナル環境におけるリズム変調の解明

    福田弘和

    【植物の周期と変調】公募班グループミーティング  2022.05 

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    Presentation type:Oral presentation (general)  

  • 概日時計の位相応答曲線を用いた化学物質の作用タイムラグの推定モデル

    藤本風太, 福田弘和

    日本物理学会 第77回年次大会(2022年)  2022.03 

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  • 時計細胞集団における位相波の生成モデルと光による制御

    温 雨佳, 福田弘和

    食料農業工学会関西支部 第147回例会プログラム  2022.03 

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    Presentation type:Oral presentation (general)  

  • 起潮力リズムに対するヒルベルト変換の検証

    池田和輝, 福田弘和

    食料農業工学会関西支部 第147回例会プログラム  2022.03 

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    Presentation type:Oral presentation (general)  

  • 時計遺伝子の発現リズムに対するモデル式の確立

    八木亮太, 福田弘和

    食料農業工学会関西支部 第147回例会プログラム  2022.03 

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  • 位相応答曲線の高速同定法による植物の環境応答と発生の時空間統合モデルの構築

    福田弘和

    新学術領域研究「植物の周期と変調」令和3年度 第2回領域会議  2022.01 

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    Presentation type:Oral presentation (general)  

  • A comparison of fast identification methods for the phase response curve in plant circadian clock

    福田弘和

    第28回日本時間生物学会学術大会  2021.11 

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  • Circadian rhythm analysis of lettuce leaf expansion by a three-dimensional measurement using depth camera

    林大輝, 福田弘和

    第28回日本時間生物学会学術大会  2021.11 

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  • Analysis of the time lag of compound effects by an inverse problem from phase response curves

    藤本風太, 福田弘和

    第28回日本時間生物学会学術大会  2021.11 

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  • 化合物の作用タイムラグを概日時計の位相応答曲線から逆問題で解析

    藤本風太, 福田弘和

    日本生物環境工学会 オンライン次世代研究発表会  2021.11 

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  • 深度カメラによる葉の上下振動計測を基にしたレタスの概日リズム解析

    林大輝, 福田弘和

    日本生物環境工学会 オンライン次世代研究発表会  2021.11 

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  • 概日時計の位相応答曲線におけるノイズの数理モデル化

    田中綸, 福田弘和

    日本生物環境工学会 オンライン次世代研究発表会  2021.11 

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  • 概日時計における脱同期領域の人工生成による側根誘起の可能性

    香河悠也, 福田弘和

    日本生物環境工学会 オンライン次世代研究発表会  2021.11 

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  • SPA基礎モデルの樹立と展開

    福田 弘和

    日本生物環境工学会シンポジウム 「生物環境工学のパラダイム・シフト」  2021.09 

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  • 位相応答曲線の高速同定法による植物の環境応答と発生の時空間統合モデルの構築

    福田弘和

    新学術領域研究「植物の周期と変調」令和3年度 第1回領域会議  2021.08 

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  • 概日時計制御技術の高度化研究

    福田 弘和

    PFC2020 年度研究等の成果発表会  2021.06 

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  • 植物工場のレタス成長解析のためのセグメンテーション手法の構築

    柳澤真由, 福田弘和

    2020年度 日本生物環境工学会 オンライン合同支部大会  2020.12 

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  • 深度カメラを用いたレタス苗の3次元Optical Flow解析

    林大輝, 福田弘和

    2020年度 日本生物環境工学会 オンライン合同支部大会  2020.12 

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  • 植物工場レタスのRNA‐seq解析におけるLightGBMを用いた高精度時刻推定モデルの構築

    植田瑛晶, 谷垣悠介, 福田弘和

    2020年度 日本生物環境工学会 オンライン合同支部大会  2020.12 

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  • 植物工場の育苗室における投影葉面積の高精度解析技術

    上野峻穂, 福田弘和

    2020年度 日本生物環境工学会 オンライン合同支部大会  2020.12 

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  • Examination of Optimal Light-dark Cycle Waveform to Increase the Amplitude of Circadian Rhythm in Arabidopsis thaliana

    2020.09 

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  • Effect of the phase difference between the diurnal light and temperature cycles on plant growth

    2020.09 

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  • Measurement of nonuniform phase response of circadian rhythm on the leaf of Arabidopsis thaliana

    2020.09 

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  • 概日時計シンギュラリティから見た栽培環境の新たな設計

    福田弘和

    日本植物学会 第84回大会・シンポジウム  2020.09 

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  • 植物工場の自動化技術~生体リズムと生育不安定性

    福田弘和

    第122 回テクノラボツアー 「最先端農業を支える工学技術」  2020.09 

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  • 植物工場生産安定化技術への概日時計制御理論の組込み

    福田弘和

    「PFC令和元年度(2019年度)共同等研究成果発表会」  2020.09 

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  • シロイヌナズナの葉面における概日時計の器官特異性

    田中綸, 太田雅人, 増田亘作, 福田弘和

    食料農業工学会関西支部  2020.03 

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  • 植物工場のレタス苗における1日分の時系列投影葉面積が示す生育予測

    国分寺諒, 植田瑛晶, 上野峻穂, 福田弘和

    食料農業工学会関西支部  2020.03 

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  • 植物工場におけるレタスの画像領域分割のためのRandom WakersとWateshedアルゴリズムの比較

    彭楚微, 柳澤真由, 福田弘和

    食料農業工学会関西支部  2020.03 

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  • 植物における概日リズムの振幅を増大させる最適な明暗サイクル波形の検討

    香河悠也, 山田竜也, 増田亘作, 福田弘和

    食料農業工学会関西支部  2020.03 

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  • 低密度な時系列データを用いた分子時刻表手法の確立

    林大輝, 植田瑛晶, 谷垣悠介, 福田弘和

    食料農業工学会関西支部  2020.03 

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  • Prediction of lettuce fresh weight using optical flow and machine learning in a closed-type plant factory

    Shogo Nagano, Shogo Moriyuki, Kazumasa Wakamori, Hiroshi Mineno, Hirokazu Fukuda

    IPPS 2019  2019.10 

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  • Technology for high-accuracy analysis of the projected leaf area in a nursery room in a closed-type plant factory

    Takaho Ueno, Shogo Nagano, Shogo Moriyuki, Hirokazu Fukuda

    IPPS 2019  2019.10 

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  • Plant circadian time estimation using single sample in greenhouse Tomato

    2019.10 

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  • Measurement of phase response curve using spatiotemporal pattern in a single leaf

    2019.10 

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  • 植物工場生産安定化技術への概日時計制御理論の組込み

    福田弘和

    第26回学術大会 日本時間生物学会(シンポジウム:時間生物学研究の産業応用 )  2019.10 

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  • Measurement of phase response curve using spatiotemporal pattern in plant roots

    2019.10 

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  • Effect of simultaneous inputs of two periodic environmental stimuli with phase differences on the amplitude of plant circadian clock

    2019.10 

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  • 植物工場の育苗室における投影葉面積の高精度解析技術

    上野峻穂, 長野将吾, 守行正悟, 福田弘和

    2019年日本生物環境工学会千葉大会  2019.09 

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  • 植物工場生産安定化技術への概日時計制御理論の組込み

    福田弘和

    2019年度(第29回)日本数理生物学会大会シンポジウム「農学における数理生物学」  2019.09 

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    Presentation type:Oral presentation (general)  

  • Leaf Movement Based Growth Prediction Model Using Optical Flow Analysis and Machine Learning in Plant Factory.

    Shogo Nagano, Shogo Moriyuki, Kazumasa Wakamori, Hiroshi Mineno, Hirokazu Fukuda

    Greensys2019  2019.06 

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    Presentation type:Oral presentation (general)  

  • Detection and utilization of circadian rhythms in plant factories.

    Hirokazu Fukuda, Shogo Moriyuki

    Greensys2019  2019.06 

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    Presentation type:Poster presentation  

  • 体内時計を利用した植物工場

    谷垣悠介, 福田弘和

    日本農芸化学会2019年度大会  2019.03 

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    Presentation type:Oral presentation (general)  

  • レタス成長予測技術のための生育状態に対応した葉面積自動取得システムの開発

    上野峻穂, 守行正悟, 福田弘和

    農業食料工学会関西支部第141回例会  2019.03 

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    Presentation type:Oral presentation (general)  

  • 薬用ハーブCentella asiaticaのフェノタイピングに関する研究

    植田瑛晶, 福田弘和

    農業食料工学会関西支部第141回例会  2019.03 

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    Presentation type:Oral presentation (general)  

  • 苗診断システムの導入可否決定のための費用モデルの構築

    包凌峰, 守行正悟, 福田弘和

    農業食料工学会関西支部第141回例会  2019.03 

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    Presentation type:Oral presentation (general)  

  • 植物工場における概日時計の科学と技術

    福田弘和

    明治大学現象数理学研究拠点共同研究集会「生物学・化学・数理科学から見抜くリズム現象の本質」  2019.03 

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    Presentation type:Oral presentation (general)  

  • 明暗環境下において異なる時刻に加わる温度刺激が植物の成長と概日時計に与える影響

    山田竜也, 増田亘作, 福田弘和

    農業食料工学会関西支部第141回例会  2019.03 

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    Presentation type:Oral presentation (general)  

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Industrial Property Rights

  • 植物の生産方法

    福田 弘和、守行 正悟、山川 浩延、糸賀 和義

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    property_type:Patent 

    Application no:特願2017-164480 

    Patent/Registration no:特許第6928372号 

  • 植物の生産方法

    福田 弘和, 守行 正悟, 山川 浩延, 糸賀 和義

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    property_type:Patent 

    Application no:特願2017-164480号 

    Patent/Registration no:特許第6928372号 

  • ストレス耐性植物の製造方法

    福田弘和、関直基、谷垣悠介、山川浩延

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    property_type:Patent 

    Application no:特願2017-068474 

    Patent/Registration no:特許第6934165号 

  • ストレス耐性植物の製造方法

    福田弘和, 関直基, 谷垣悠介, 山川浩延

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    property_type:Patent 

    Application no:特願2017-068474号 

    Patent/Registration no:特許第6934165号 

  • 栽培システム

    伊藤豪、堤一弘、平井達也、岡崎由、大原均、福田弘和、守行正悟

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    property_type:Patent 

    Patent/Registration no:特許第6151663号 

  • 植物栽培装置

    福田弘和

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    property_type:Patent 

  • 植物栽培方法及び体内時計最適化植物栽培装置

    福田弘和、山川浩延

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    property_type:Patent 

    Application no: 特願2011-044317 

    Patent/Registration no:特許第6012928号 

  • 分子診断型植物工場及び分子診断法

    福田弘和、山川浩延

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    property_type:Patent 

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Outline of collaborative research (seeds)

  • 概日時計

  • 生体リズム制術

  • 植物工場

Grant-in-Aid for Scientific Research

  • 3D Modeling of Plants by Human-Collaborative Robots and Multi-Scale VR Manipulation

    Grant-in-Aid for Challenging Research (Pioneering)  2026

  • 3D Modeling of Plants by Human-Collaborative Robots and Multi-Scale VR Manipulation

    Grant-in-Aid for Challenging Research (Pioneering)  2025

  • 3D Modeling of Plants by Human-Collaborative Robots and Multi-Scale VR Manipulation

    Grant-in-Aid for Challenging Research (Pioneering)  2024

Charge of on-campus class subject

  • 機械マテリアル演習

    2024   Weekly class   Undergraduate

  • 機械システム演習

    2024   Weekly class   Undergraduate

  • 機械生産管理

    2024   Weekly class   Undergraduate

  • エネルギー機械演習

    2024   Weekly class   Undergraduate

  • 機械基礎実験

    2024   Weekly class   Undergraduate

  • 機械設計演習

    2024   Weekly class   Undergraduate

  • 機械工学概論

    2024   Weekly class   Undergraduate

  • バイオ工学特論

    2024   Weekly class   Graduate school

  • Special Project in Mechanical Engineering IV

    2021    

  • Special Project in Mechanical Engineering III

    2021    

  • Advanced Seminar in Mechanical Engineering IV

    2021    

  • Advanced Seminar in Mechanical Engineering III

    2021    

  • Special Project in Mechanical Engineering II

    2021    

  • Special Project in Mechanical Engineering I

    2021    

  • Advanced Seminar in Mechanical Engineering II

    2021    

  • Advanced Seminar in Mechanical Engineering I

    2021    

  • Technical English for Mechanical Engineers

    2021    

  • Undergraduate Project in Mechanical Engineering

    2021    

  • College of Engineering Internship

    2021   Practical Training  

  • Recent Advances in Engineering

    2021    

  • Introduction to Mechanical, Aerospace and Marine-System EngineeringI

    2021    

  • Manufacturing System Engineering

    2021    

  • Exercises in Mechanical Engineering II

    2021    

  • Exercises in Mechanical Engineering I

    2021    

  • Bioproduction engineering

    2021    

  • Selected Topics in Production Engineering

    2021    

  • Principles of Manufacturing Process

    2021    

  • Manufacturing Engineering for Mechanical Engineers

    2021    

  • Advanced Manufacturing Engineering

    2021    

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Charge of off-campus class subject

  • バイオプロダクション工学

    2018.04

  • 生産システム工学

    2018.04

  • 機械生産工学

    2018.04

  • 機械及びバイオ生産工学特別講義

    2018.04

  • 加工学特論

    2018.04

  • 加工原理

    2018.04

  • 初年次ゼミナール【植物工場における科学技術】

    2018.04

  • 機械工学総合演習I

    2013.04

  • 機械設計製図演習II

    2013.04

  • 機械工学総合演習II

    2013.04

  • 機械工学実験I

    2011.04

  • 機械工学実験II

    2011.04

  • バイオコンピューティング

    2007.04

  • 科学英語読解

    2007.04

  • 科学英語表現

    2007.04

  • 知能情報処理

    2007.04

  • 生物情報科学演習B

    2007.04

  • 材料力学

    2007.04

  • 光放射工学

    2007.04

  • バイオメカトロニクス基礎実験

    2007.04

  • バイオテクノロジー概論

    2007.04

  • 地域環境科学実験・実習

    2005.04

  • 生物情報科学演習A

    2005.04

  • 生物情報科学ラボ演習

    2005.04

  • 生物情報工学基礎実験

    2005.04

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Media Coverage

  • The singularity response reveals entrainmentproperties of the plant circadian clock Newspaper, magazine

    2021.02

  • The singularity response reveals entrainmentproperties of the plant circadian clock Newspaper, magazine

    2021.02

Visiting Lectures ⇒ Link to the list of Visiting Lectures

  • 機械系学類の紹介

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    Audience:High school students

  • 機械系学類の紹介

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    Audience:High school students

  • 朝日カルチャースクール: 植物の生命活動のカギは?=植物の体内時計のメカニズムを語ります=

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    Audience:College students, General