宮野 尚哉, 後藤田 浩, pp. 1-188, 2020, サイエンス社. |
Keng H Chuah, Hiroshi Gotoda, Genichiro Kushida, Kozo Saito, Numerical simulations of methane diffusion flame with burner rotation, Progress in Scale Modeling (Edit. Kozo Saito), Springer, pp. 211-223, 2008. |
原著論文(英文誌67編, 和文誌2編)▲Top
Hiroya Mamori, Yusuke Nabae, Shingo Fukuda, Hiroshi Gotoda, Dynamic state of low-Reynolds-number turbulent channel flow, |
Kento Baba, Sena Kishiya, Hiroshi Gotoda, Takeshi Shoji, Seiji Yoshida, Early detection of thermoacoustic instability in a staged single-sector combustor for aircraft engines using symbolic dynamics-based approach, |
Yosuke Mori, Sena Kishiya, Takuya Kurosaka, Hiroshi Gotoda, Feedback coupling and early detection of thermoacoustic combustion instability, |
Kazuki Kawano, Hiroshi Gotoda, Yusuke Nabae, Yuya Ohmichi, Shingo Matsuyama, Complex-network analysis of high-frequency combustion instability in a model single-element rocket engine combustor, |
Yosuke Mori, Takeshi Kawada, Shingo Fukuda, Hiroshi Gotoda, Nonlinear dynamics of attenuation behavior in combustion oscillations in a swirl-stabilized combustor, |
Yushi Ozaki, Kazuki Kawano, Hiroshi Gotoda, Gravitational effect on the nonlinear dynamics of a buoyant turbulent flame, |
Kazuki Asami, Takeshi Kawada, Sena Kishiya, Hiroshi Gotoda, Dynamic behavior and driving region of thermoacoustic combustion oscillations in a swirl-stabilized turbulent combustor, |
Yuji Nomi, Hiroshi Gotoda, Shingo Fukuda, Christophe Almarcha, Complex network analysis of spatiotemporal dynamics of premixed flame in a Hele-Shaw cell: A transition from chaos to stochastic state, |
Takumi Tokami, Masaharu Toyoda, Takaya Miyano, Isao T. Tokuda, Hiroshi Gotoda, Effect of gravity on synchronization of two coupled buoyancy-induced turbulent flames, |
Takuya Kurosaka, Shinga Masuda, Hiroshi Gotoda, Attenuation of thermoacoustic combustion oscillations in a swirl-stabilized turbulent combustor, |
Satomi Shima, Kosuke Nakamura, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama, Formation mechanism of high-frequency combustion oscillations in a model rocket engine combustor, |
Yuhei Shinchi, Naohiro Takeda, Hiroshi Gotoda, Takeshi Shoji, Seiji Yoshida, Early detection of thermoacoustic combustion oscillations in a staged multi-sector combustor, |
Yuji Nomi, Hiroshi Gotoda, Shuya Kandani, Christophe Almarcha, Complex network analysis of of the gravity effect on premixed flames propagating in a Hele-Shaw cell, |
Takayoshi Hachijo, Hiroshi Gotoda, Toshio Nishizawa, Junichi Kazawa, Early detection of cascade flutter in a model aircraft turbine using a methodology combining complex networks and synchronization, and machine learning, |
Chinami Aoki, Hiroshi Gotoda, Seiji Yoshida, Shigeru Tachibana, Dynamic behavior of intermittent combustion oscillations in a model rocket engine combustor, |
Takayoshi Hachijo, Hiroshi Gotoda, Toshio Nishizawa, Junichi Kazawa, Experimental study on early detection of cascade flutter in turbo jet fans using combined methodology of symbolic dynamics, dynamical systems theory, and machine learning, |
Takumi Tokami, Takayoshi Hachijo, Takaya Miyano, Hiroshi Gotoda, Spatiotemporal dynamics of a buoyancy-driven turbulent fire, |
Wataru Kobayashi, Hiroshi Gotoda, Shuya Kandani, Yuya Ohmichi, Shingo Matsuyama, Spatiotemporal dynamics of turbulent coaxial jet analyzed by symbolic information -theory quantifiers and complex-network approach, |
Takayoshi Hachijo, Shinga Masuda, Takuya Kurosaka, Hiroshi Gotoda, Early detection of thermoacoustic combustion oscillations using a methodology combining statistical complexity and machine learning, |
Tsubasa Kobayashi, Shogo Murayama, Takayoshi Hachijo, Hiroshi Gotoda, Early detection of thermoacoustic combustion instability using a methodology combining complex networks and machine learning, |
Shogo Murayama and Hiroshi Gotoda, Attenuation behavior of thermoacoustic combustion instability analyzed by complex-network- and synchronization-based approach, |
Tatsuya Hashimoto, Hajime Shibuya, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama, Spatiotemporal dynamics and early detection of thermoacoustic combustion instability in a model rocket combustor, |
Shogo Murayama, Kentaro Kaku, Motoi Funatsu, Hiroshi Gotoda, Characterization of dynamic behavior of combustion noise, and detection of blowout in a laboratory-scale gas-turbine model combustor, |
Kazushi Takagi, Hiroshi Gotoda, Isao T. Tokuda, Takaya Miyano, Dynamic behavior of temperature field in a buoyancy-driven turbulent fire, |
Kazushi Takagi and Hiroshi Gotoda, Effect of gravity on nonlinear dynamics of flow velocity field in turbulent fire, |
Hiroaki Kobayashi, Hiroshi Gotoda, Shigeru Tachibana, Nonlinear determinism of degenerated combustion instability in a gas-turbine model combustor, |
Haruki Kasuya, Hiroshi Gotoda, Seiji Yoshida, Shigeru Tachibana, Dynamic behavior of combustion instability in a cylindrical combustor with an off-center installed coaxial injector, |
Shogo Murayama, Hikaru Kinugawa, Isao T. Tokuda, Hiroshi Gotoda, Characterization and detection of thermoacoustic combustion oscillations based on statistical complexity and complex-network theory, |
Kazushi Takagi, Hiroshi Gotoda, Takaya Miyano, Shogo Murayama, Isao T. Tokuda, Synchronization of two coupled turbulnet fires, |
Shyutaro Kondo, Hiroshi Gotoda, Takaya Miyano, Isao T. Tokuda, Chaotic dynamics of large-scale double-diffusive convection in a porous medium, |
Hiroaki Kobayashi, Hiroshi Gotoda, Shigeru Tachibana, Seiji Yoshida, Detection of frequency-mode-shift during thermoacoustic combustion oscillations in a staged aircraft engine model combustor, |
Hiroshi Gotoda, Marc Pradas, Serafim Kalliadasis, Chaotic versus stochastic behavior in active-dissipative nonlinear systems, |
Kazushi Takagi, Hiroshi Gotoda, Isao T. Tokuda, Takaya Miyano, Nonlinear dynamics of a buoyancy-induced turbulent fire, |
Takaya Miyano and Hiroshi Gotoda, Estimation of the degree of dynamical instability from the information entropy of symbolic time series, |
Hiroshi Gotoda, Hikaru Kinugawa, Ryosuke Tsujimoto, Shohei Domen, Yuta Okuno, Characterization of combustion dynamics, detection and prevention of an unstable combustion state based on a complex-network theory, |
Hiroshi Gotoda, Hiroaki Kobayashi, Kenta Hayashi, Chaotic dynamics of a swirling flame front instability generated by a change in gravitational orientation, |
Hiroshi Gotoda, Kenta Hayashi, Ryosuke Tsujimoto, Shohei Domen, Shigeru Tachibana, Dynamic properties of combustion instability in a laboratory-scale gasturbine model combustor, |
Kenta Hayashi, Hiroshi Gotoda, Pier Luigi Gentili, Probing and exploiting the chaotic dynamics of a hydrodynamic photochemical oscillator to implement all the basic binary logic functions, |
Hikaru Kinugawa, Kazuhiro Ueda, Hiroshi Gotoda, Chaos of radiative heat-loss-induced flame front instability, |
Keng H Chuah, Kozo Saito, Yu Hashiba, Hiroshi Gotoda, Forman A Williams, A spectrally resolved imaging method for investigating alcohol pool fires, |
Hiroshi Gotoda, Yuta Okuno, Kenta Hayashi, Shigeru Tachibana, Characterization of degeneration process in combustion instability based on dynamical systems theory, |
Yuta Okuno, Michael Small, Hiroshi Gotoda, Dynamics of a self-excited thermoacoustic instability in a combustion system: Pseudo-periodic and high-dimensional nature, |
Adzlan Ahmad, Shunsuke Tsutsumi, Hiroshi Gotoda, Near-field behavior of variable property jet with swirling flow generated by a change in gravitational orientation, |
Hiroshi Gotoda, Marc Pradas, Serafim Kalliadasis, Nonlinear forecasting of the generalized Kuramoto-Sivashinsky equation, |
Pier Luigi Gentili, Hiroshi Gotoda, Milos Dolnik, Irving Epstein, Analysis and prediction of aperiodic hydrodynamic oscillatory time series by feed-forward neural networks, fuzzy logic and a local nonlinear predictor, |
Shohei Domen, Hiroshi Gotoda, Taku Kuriyama, Yuta Okuno, Shigeru Tachibana Detection and prevention of blowout in a lean premixed gas-turbine model combustor using the concept of dynamical system theory, |
Daisuke Fukuda, Ryosuke Shinjo, Toshiya Okamoto, Hiroshi Gotoda Stabilization of a lean premixed flame using non-thermal plasma, |
Hiroshi Gotoda, Yuta Shinoda, Masaki Kobayashi, Yuta Okuno, Shigeru Tachibana, Detection and control of combustion instability based on the concept of dynamical system theory, |
Hiroshi Gotoda, Riyota Takeuchi, Yuta Okuno, Takaya Miyano, Low-dimensional dynamical system for Rayleigh-Benard convection subjected to magnetic field, |
Hiroshi Gotoda, Masahito Amano, Takaya Miyano, Takuya Ikawa, Koshiro Maki, Shigeru Tachibana, Characterization of complexities in combustion instability in a lean premixed gas-turbine model combustor, |
Hiroshi Gotoda, Takuya Ikawa, Koshiro Maki, Takaya Miyano, Short-term prediction of dynamical behavior in flame front instability induced by radiative heat loss, |
Adzlan Ahmad and Hiroshi Gotoda, Experimental investigation of vortex breakdown in a variable propertycoaxial swirling jet, |
後藤田 浩, 橋場 優, 比江島 俊彦, 松谷 一路, 西岡 通男, 中空型縦渦の不安定挙動, |
Suguru Mastubara, Hiroshi Gotoda, Adzlan Ahmad, Toshihisa Ueda, Experiments on dynamic behavior of near-field region in variable property jet with swirling flow, |
Hiroshi Gotoda, Hiroyuki Nikimoto, Takaya Miyano, Shigeru Tachibana, Dynamic properties of combustion instability in a lean premixed gas-turbine combustor, |
Hiroshi Gotoda, Takaya Miyano, Ian G Shepherd, Experimental investigation on dynamic motion of lean swirling premixed flame generated by change in gravitationalorientation, |
Hiroshi Gotoda, Keisuke Michigami, Kota Ikeda, Takaya Miyano, Chaotic oscillation in diffusion flame induced by radiative heat loss, |
Hiroshi Gotoda, Yuta Asano, Keng H Chuah, Genichiro Kushida, Takaya Miyano, Dynamic behavior of buoyancy-induced flame oscillation under swirling flow-Nonlinear time series analysis, in combination with surrogate data method Combustion Science and Technology, vol. 182, pp. 1820-1840, 2010. |
Hiroshi Gotoda, Yuta Asano, Keng H Chuah, Genichiro Kushida, Nonlinear analysis on dynamic behavior of buoyancy-induced flame oscillation under swirling flow, International Journal of Heat and Mass Transfer, vol. 52, pp. 5423-5432, 2009. |
Hiroshi Gotoda, Shintaro Kawaguchi, Yuko Saso, Experiments on dynamical motion of buoyancy-induced flame instability under different oxygen concentration, |
Hiroshi Gotoda and Yuko Saso, Unsteady motion of pool fire on small-scale burner, |
Hiroshi Gotoda, Toshihisa Ueda, Ian G Shepherd, Robert K Cheng, Flickering frequency in a rotating Bunsen flame, |
Hiroshi Gotoda, Samuel L Manzello, Yuko Saso, Takashi Kashiwagi, Effects of sample orientation on non-piloted ignition of thin Poly(methy methacrylate) sheets by a laser, |
Hiroshi Gotoda and Toshihisa Ueda, Orbital instability and prediction of a Bunsen flame tip motion with burner rotation, |
Samuel L Manzello, Hiroshi Gotoda, Takashi Kashiwagi, Non-piloted ignition visualization on a thin Poly(methy methacrylate) (PMMA) surface, |
Hiroshi Gotoda, Toshihisa Ueda, Robert K Cheng, Dynamic motion of rotating Bunsen flame tip in microgravity, |
Hiroshi Gotoda, Kazuyuki Maeda, Toshihisa Ueda, Robert K Cheng, Periodic motion of a Bunsen flame with burner rotation, |
Hiroshi Gotoda and Toshihisa Ueda, Transition from periodic to nonperiodic motion of a Bunsen type premixed flame tip with burner rotation, |
後藤田 浩, 植田 利久, 回転流中に形成されるブンゼン火炎先端部の振動特性, 日本機械学会論文集B編, |
解説記事・メディア等 ▲Top
後藤田 浩, 高周波燃焼振動を複雑系科学から理解する, |
後藤田 浩, 八條 貴誉, 西澤 敏雄, 賀澤 順一, 複雑系科学の基礎理論と機械学習を用いた航空用ガスタービン内で形成される 翼列フラッタの予兆検知, -データ同化・機械学習・デジタルツイン), vol. 50, pp. 185-190, 2022. |
後藤田 浩, 新地 悠平, 庄司 烈, 吉田 征二, 航空機エンジン用ステージング燃焼器内に形成される燃焼振動の予兆検知, 日本伝熱学会「伝熱」 (特集号: データ駆動科学と熱・流体工学), vol. 60, pp. 23-29, 2021. |
後藤田 浩, 島 里実, 中村 洸介, 大道 勇哉, 松山 新吾, 「東京理科大学, 燃焼振動の仕組みを解明」, 日刊工業新聞, 朝刊24面, 2021年8月5日. |
Satomi Shima, Kosuke Nakamura, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama, 「Fuel flow, pressure and heat fluctuations drive combustion oscillations in rocket engines」, Physics World, Institute of Physics, 2021年6月23日. |
Satomi Shima, Kosuke Nakamura, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama, 「Fuel flow, heat fluctuations drive dangerous oscillations in rocket engines」, AIP News, American Institute of Physics, 2021年6月22日. |
後藤田 浩, 機械学習の燃焼流への応用, 日本機械学会誌 (特集: 機械学習×熱・流体工学の最前線), vol. 124, pp. 22-25, 2021. |
増田 晋河, 浅見 憲輝, 八條 貴誉, 後藤田 浩, 旋回型燃焼器内に形成される燃焼振動の予兆検知と回避 -記号力学,複雑ネットワークと機械学習を組み合わせた方法論の導入- 日本燃焼学会誌 (特集号: 機械学習技術の燃焼分野への応用), vol. 63, pp. 30-36, 2021. |
後藤田 浩, 八條 貴誉, 西澤 敏雄, 賀澤 順一, 「翼列フラッタ検知に威力」, 科学新聞, 2020年10月30日. |
後藤田 浩, 村山 聖悟, 燃焼振動の時空間ダイナミックス -複雑ネットワークと同期-, 日本伝熱学会 伝熱 (特集号: 熱対流現象の非線形物理), vol. 58, pp. 53-61, 2019. |
後藤田 浩, 高木 一至, 宮野 尚哉, 徳田 功, 乱流火災の時空構造の複雑さと同期, |
後藤田 浩, 燃焼研究における複雑系科学の新地平, |
後藤田 浩, 力学系理論を用いた燃焼不安定の非線形特性の解明と工学的応用, |
受賞▲Top
Kazuki Asami, Takeshi Kawata, Sena Kishiya, Hiroshi Gotoda, |
Yuji Nomi, Hiroshi Gotoda, Hiroshi Gotoda, Christophe Almarcha, |
村山 聖悟, 賀来 健太郎, 船津 基以, 後藤田 浩, 日本燃焼学会 論文賞, 2021. |
Satomi Shima, Kosuke Nakamura, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama |
後藤田 浩,
|
Tatsuya Hashimoto, Hajime Shibuya, Hiroshi Gotoda, Yuya Ohmichi, Shingo Matsuyama |
後藤田 浩,
|
後藤田 浩,
|
後藤田 浩,
日本燃焼学会 奨励賞 |
学生受賞
岸谷 宣成, 日本機械学会 年次大会講演会, 日本機械学会 若手優秀講演フェロー賞, 2023. |
福田 真悟, 日本流体力学会 年会2022, 若手優秀講演賞, 2022. |
岸谷 宣成, 日本伝熱学会 第58回日本伝熱シンポジウム, 優秀プレゼンテーション賞, 2021. |
安藤 一貴, 日本機械学会 関東支部 第60回学生員卒業研究発表講演会, ベストプレゼンテーション賞, 2021. |
岸谷 宣成, 日本機械学会 関東支部 第60回学生員卒業研究発表講演会, ベストプレゼンテーション賞, 2021. |
冨上 拓光, 日本燃焼学会 第57回燃焼シンポジウム, ベストプレゼンテーション賞, 2019. |
増田 晋河, 日本燃焼学会 第57回燃焼シンポジウム, ベストプレゼンテーション賞, 2019. |
樋田 匡治, 電子情報通信学会 非線形問題研究会, 奨励賞, 2019. |
村山 聖悟, 東京理科大学 学生表彰, 奨励賞, 2019. |
冨上 拓光, 日本設計工学会 武藤栄治賞, 優秀学生賞, 2019. |
島 里実, 日本機械学会 関東支部 第58回学生員卒業研究発表講演会, ベストプレゼンテーション賞, 2019. |
林 優人, 日本ガスタービン学会 第46回定期講演会, 学生優秀講演賞, 2018. |
小林 大晃, 東京理科大学 学生表彰, 奨励賞, 2018. |
賀来 健太郎, 自動車技術会, 大学院奨励賞, 2018. |
高木 一至, 米国物理学会 第69回流体力学部門 年次大会 (69th Annual Meeting of the APS, Divison of Fluid Dynamics), ベストポスター賞, 2016. |
粕谷 遥希, 日本設計工学会 武藤栄治賞, 優秀学生賞, 2016. |