Lead author | 主著
・D. Inazu, Y. Ito, R. Hino, and W. Tanikawa: Abrupt water temperature increases near seafloor during the 2011 Tohoku earthquake. Progress in Earth and Planetary Science, 10, 24, doi:10.1186/s40645-023-00556-0, May 2023. (Link)
・D. Inazu, T. Ikeya, T. Iseki, and T. Waseda: Extracting clearer tsunami currents from shipborne Automatic Identification System data using ship yaw and equation of ship response. Earth, Planets and Space, 72, 41, doi:10.1186/s40623-020-01165-7, March 2020. (Link)
・D. Inazu, T. Ikeya, T. Waseda, T. Hibiya, and Y. Shigihara: Measuring offshore tsunami currents using ship navigation records. Progress in Earth and Planetary Science, 5, 38, doi:10.1186/s40645-018-0194-5, August 2018. (Link)
・D. Inazu, T. Waseda, T. Hibiya, and Y. Ohta: Assessment of GNSS-based height of multiple ships for measuring and forecasting great tsunamis. Geoscience Letters, 3, 25, doi:10.1186/s40562-016-0059-y, August 2016. (Link)
・D. Inazu, N. Pulido, E. Fukuyama, T. Saito, J. Senda, and H. Kumagai: Near-field tsunami forecast system based on near real-time seismic moment tensor estimation in the regions of Indonesia, the Philippines, and Chile. Earth, Planets and Space, 68, 73, doi:10.1186/s40623-016-0445-x, May 2016. (Link)
・D. Inazu, and T. Saito: Global tsunami simulation using a grid rotation transformation in a latitude-longitude coordinate system. Natural Hazards, 80(2), 759–773, doi:10.1007/s11069-015-1995-0, January 2016. (Link)
・D. Inazu, and T. Saito: Two subevents across the Japan Trench during the 7 December 2012 off Tohoku earthquake (Mw 7.3) inferred from offshore tsunami records. Journal of Geophysical Research–Solid Earth, 119(B7), 5800–5813, doi:10.1002/2013JB010892, July 2014. (Link)
・D. Inazu, and T. Saito: Simulation of distant tsunami propagation with a radial loading deformation effect. Earth, Planets and Space, 65(8), 835–842, doi:10.5047/eps.2013.03.010, August 2013. (Link)
・D. Inazu, R. Hino, and H. Fujimoto: A global barotropic ocean model driven by synoptic atmospheric disturbances for detecting seafloor vertical displacements from in situ ocean bottom pressure measurements. Marine Geophysical Research, 33(2), 127–148, doi:10.1007/s11001-012-9151-7, June 2012. (Link)
・D. Inazu, and R. Hino: Temperature correction and usefulness of ocean bottom pressure data from cabled seafloor observatories around Japan for analyses of tsunamis, ocean tides, and low-frequency geophysical phenomena. Earth, Planets and Space, 63(11), 1133–1149, doi:10.5047/eps.2011.07.014, November 2011. (Link)
・D. Inazu, T. Higuchi, and K. Nakamura: Optimization of boundary condition and physical parameter in an ocean tide model using an evolutionary algorithm. Theoretical and Applied Mechanics Japan, 58, 101–112, doi:10.11345/nctam.58.101, September 2010. (Link)
・D. Inazu, T. Sato, S. Miura, Y. Ohta, K. Nakamura, H. Fujimoto, C.F. Larsen, and T. Higuchi: Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay. Journal of Oceanography, 65(3), 335–347, doi:10.1007/s10872-009-0031-y, June 2009. (Link)
・D. Inazu, N. Hirose, S. Kizu, and K. Hanawa: Zonally asymmetric response of the Japan Sea to synoptic pressure forcing. Journal of Oceanography, 62(6), 909–916, doi:10.1007/s10872-006-0108-9, December 2006. (Link)
・稲津大祐・木津昭一・花輪公雄:気圧変動に対する日本沿岸水位の応答.海の研究,14(1),57–69,doi:10.5928/kaiyou.14.57,2005年1月.(Link)
Coauthor | 共著
・L. Wu, S. Ishikawa, D. Inazu, T. Ikeya, and A. Okayasu: An automatic shoreline extraction method from SAR imagery using DeepLab-v3+ and its versatility. Coastal Engineering Journal, 67(1), 106–118, doi:10.1080/21664250.2024.2393528, February 2025. (Link)
・N. Sawada, D. Inazu, L. Wu, T. Ikeya, and A. Okayasu: Air-borne stereo observation of ocean wave height using two independent cameras from a single unmanned aerial vehicle. Journal of Marine Science and Technology, 29(3), 508–518, doi:10.1007/s00773-024-01005-3, May 2024. (Link)
・H. Otsuka, Y. Ohta, R. Hino, T. Kubota, D. Inazu, T. Inoue, and N. Takahashi: Reduction of non-tidal oceanographic fluctuations in ocean-bottom pressure records of DONET using principal component analysis to enhance transient tectonic detectability. Earth, Planets and Space, 75, 112, doi:10.1186/s40623-023-01862-z, July 2023. (Link)
・T. Inoue, Y. Ito, L. Wallace, Y. Yoshikawa, D. Inazu, E.S.M. Garcia, T. Muramoto, S.C. Webb, K. Ohta, S. Suzuki, and R. Hino: Water depth dependence of long-range correlation in nontidal variations in seafloor pressure. Geophysical Research Letters, 48(8), e2020GL092173, doi:10.1029/2020GL092173, April 2021. (Link)
・T. Kubota, T. Saito, H. Tsushima, R. Hino, Y. Ohta, S. Suzuki, and D. Inazu: Extracting near-field seismograms from ocean-bottom pressure gauge inside the focal area: application to the 2011 Mw 9.1 Tohoku-Oki earthquake. Geophysical Research Letters, 48(7), e2020GL091664, doi:10.1029/2020GL091664, April 2021. (Link)
・Y. Dobashi, and D. Inazu: Improving detectability of seafloor deformation from bottom pressure observations using numerical ocean models. Frontiers in Earth Science–Solid Earth Geophysics, 8, 598270, doi:10.3389/feart.2020.598270, January 2021. (Link)
・F. Kitamura, D. Inazu, T. Ikeya, and A. Okayasu: An allocating method of tsunami evacuation routes and refuges for minimizing expected casualties. International Journal of Disaster Risk Reduction, 45, 101519, doi:10.1016/j.ijdrr.2020.101519, May 2020. (Link)
・I.E. Mulia, T. Hirobe, D. Inazu, T. Endoh, Y. Niwa, A.R. Gusman, H. Tatehata, T. Waseda, and T. Hibiya: Advanced tsunami detection and forecasting by radar on unconventional airborne observing platforms. Scientific Reports, 10, 2412, doi:10.1038/s41598-020-59239-1, February 2020. (Link)
・T. Kubota, R. Hino, D. Inazu, and S. Suzuki: Fault model of the 2012 doublet earthquake, near the up-dip end of the 2011 Tohoku-Oki earthquake, based on a near-field tsunami: implications for intraplate stress state. Progress in Earth and Planetary Science, 6, 67, doi:10.1186/s40645-019-0313-y, December 2019. (Link)
・T. Hirobe, Y. Niwa, T. Endoh, I.E. Mulia, D. Inazu, T. Yoshida, H. Tatehata, A. Nadai, T. Waseda, and T. Hibiya: Observation of sea surface height using airborne radar altimetry: a new approach for large offshore tsunami detection. Journal of Oceanography, 75(6), 541–558, doi:10.1007/s10872-019-00521-w, December 2019. (Link)
・T. Saito, T. Baba, D. Inazu, S. Takemura, and E. Fukuyama: Synthesizing sea surface height change including seismic waves and tsunami using a dynamic rupture scenario of anticipated Nankai trough earthquakes. Tectonophysics, 769, 228166, doi:10.1016/j.tecto.2019.228166, October 2019. (Link)
・D. Cox, T. Arikawa, A. Barbosa, G. Guannel, D. Inazu, A. Kennedy, Y. Li, N. Mori, K. Perry, D. Prevatt, D. Roueche, T. Shimozono, C. Simpson, E. Shimakawa, T. Shimura, and R. Slocum: Hurricanes Irma and Maria post-event survey in US Virgin Islands. Coastal Engineering Journal, 61(2), 121–134, doi:10.1080/21664250.2018.1558920, May 2019. (Link)
・T. Muramoto, Y. Ito, D. Inazu, L.M. Wallace, R. Hino, S. Suzuki, S.C. Webb, and S. Henrys: Seafloor crustal deformation on ocean bottom pressure records with non-tidal variability corrections: application to Hikurangi margin, New Zealand. Geophysical Research Letters, 46(1), 303–310, doi:10.1029/2018GL080830, January 2019. (Link)
・T. Endoh, D. Inazu, T. Waseda, and T. Hibiya: A parameter quantifying radiation damping of bay oscillations excited by incident tsunamis. Continental Shelf Research, 157, 10–19, doi:10.1016/j.csr.2018.02.007, April 2018. (Link)
・I.E. Mulia, D. Inazu, T. Waseda, and A.R. Gusman: Preparing for the future Nankai Trough tsunami: A data assimilation and inversion analysis from various observational systems. Journal of Geophysical Research–Oceans, 122(C10), 7924–7937, doi:10.1002/2017JC012695, October 2017. (Link)
・T. Kubota, R. Hino, D. Inazu, Y. Ito, T. Iinuma, Y. Ohta, S. Suzuki, and K. Suzuki: Coseismic slip model of offshore moderate interplate earthquakes on March 9, 2011 in Tohoku using tsunami waveforms. Earth and Planetary Science Letters, 458, 241–251, doi:10.1016/j.epsl.2016.10.047, January 2017. (Link)
・T. Iinuma, R. Hino, M. Kido, Y. Osada, D. Inazu, Y. Ito, S. Suzuki, Y. Ohta, and H. Fujimoto: Investigation on the postseismic deformation associated with the 2011 Tohoku earthquake based on terrestrial and seafloor geodetic observations: To evaluate the further seismic hazard potential on the plate interface beneath the northeastern Japanese islands. In IAG 150 Years, International Association of Geodesy Symposia 143, edited by C. Rizos and P. Willis, pp. 459–466, Springer, Switzerland, doi:10.1007/1345_2015_162, August 2016. (Link)
・J. Dettmer, R. Hawkins, P.R. Cummins, J. Hossen, M. Sambridge, R. Hino, and D. Inazu: Tsunami source uncertainty estimation: the 2011 Japan tsunami. Journal of Geophysical Research–Solid Earth, 121(B6), 4483–4505, doi:10.1002/2015JB012764, June 2016. (Link)
・Kubota, T., R. Hino, D. Inazu, Y. Ito, and T. Iinuma: Complicated rupture process of the Mw 7.0 intraslab strike-slip earthquake in the Tohoku region on 10 July 2011 revealed by near-field pressure records. Geophysical Research Letters, 42(22), 9733–9739, doi:10.1002/2015GL066101, November 2015. (Link)
・T. Miyoshi, T. Saito, D. Inazu, and S. Tanaka: Tsunami modeling from the seismic CMT solution considering the dispersive effect: a case of the 2013 Santa Cruz Islands tsunami. Earth, Planets and Space, 67, 4, doi:10.1186/s40623-014-0179-6, January 2015. (Link)
・R. Hino, D. Inazu, Y. Ohta, Y. Ito, S. Suzuki, T. Iinuma, Y. Osada, M. Kido, H. Fujimoto, and Y. Kaneda: Was the 2011 Tohoku-Oki earthquake preceded by aseismic preslip? Examination of seafloor vertical deformation data near the epicenter. Marine Geophysical Research, 35(3), 181–190, doi:10.1007/s11001-013-9208-2, September 2014. (Link)
・T. Saito, D. Inazu, T. Miyoshi, and R. Hino: Dispersion and nonlinear effects in the 2011 Tohoku-Oki earthquake tsunami. Journal of Geophysical Research–Oceans, 119(C8), 5160–5180, doi:10.1002/2014JC009971, August 2014. (Link)
・藤本博己・日野亮太・木戸元之・伊藤喜宏・太田雄策・飯沼卓史・長田幸仁・稲津大祐・鈴木秀市・佐藤俊也・立花憲司・出町知嗣・三浦哲:海陸統合測地観測に基づく2011年東北地方太平洋沖地震に関する研究.測地学会誌,60(1),1–22,doi:10.11366/sokuchi.60.1,2014年7月.(Link)
・K. Arai, H. Naruse, R. Miura, K. Kawamura, R. Hino, Y. Ito, D. Inazu, M. Yokokawa, N. Izumi, M. Murayama, and T. Kasaya: Tsunami-generated turbidity current of the 2011 Tohoku-Oki earthquake. Geology, 41(11), 1195–1198, doi:10.1130/G34777.1, November 2013. (Link)
・Y. Ito, R. Hino, M. Kido, H. Fujimoto, Y. Osada, D. Inazu, Y. Ohta, T. Iinuma, M. Ohzono, S. Miura, M. Mishina, K. Suzuki, T. Tsuji, and J. Ashi: Episodic slow slip events in the Japan subduction zone before the 2011 Tohoku-Oki earthquake. Tectonophysics, 600, 14–26, doi:10.1016/j.tecto.2012.08.022, July 2013. (Link)
・T. Saito, D. Inazu, S. Tanaka, and T. Miyoshi: Tsunami coda across the Pacific Ocean following the 2011 Tohoku-Oki earthquake. Bulletin of the Seismological Society of America, 103(2B), 1429–1443, doi:10.1785/0120120183, May 2013. (Link)
・H. Nagao, T. Higuchi, S. Miura, and D. Inazu: Time-series modeling of tide gauge records for monitoring of the crustal activities related to oceanic trench earthquakes around Japan. The Computer Journal, 56(3), 355–364, doi:10.1093/comjnl/bxs139, March 2013. (Link)
・長尾大道・樋口知之・三浦哲・稲津大祐:地球地殻の活動監視を目的とした粒子フィルタ法による長期潮位変動解析.日本統計学会誌,42(1),119–133,2012年9月.(Link)
・Y. Ohta, R. Hino, D. Inazu, M. Ohzono, Y. Ito, M. Mishina, T. Iinuma, J. Nakajima, Y. Osada, K. Suzuki, H. Fujimoto, K. Tachibana, T. Demachi, and S. Miura: Geodetic constraints on afterslip characteristics following the March 9, 2011, Sanriku-Oki earthquake, Japan. Geophysical Research Letters, 39(16), L16304, doi:10.1029/2012GL052430, August 2012. (Link)
・T. Iinuma, R. Hino, M. Kido, D. Inazu, Y. Osada, Y. Ito, M. Ohzono, H. Tsushima, S. Suzuki, H. Fujimoto, and S. Miura: Coseismic slip distribution of the 2011 off the Pacific Coast of Tohoku Earthquake (M9.0) refined by means of seafloor geodetic data. Journal of Geophysical Research–Solid Earth, 117(B7), B07409, doi:10.1029/2012JB009186, July 2012. (Link)
・T. Sato, S. Miura, W. Sun, T. Sugano, J.T. Freymueller, C.F. Larsen, Y. Ohta, H. Fujimoto, D. Inazu, and R.J. Motyka: Gravity and uplift rates observed in southeast Alaska and their comparison with GIA model predictions. Journal of Geophysical Research–Solid Earth, 117(B1), B01401, doi:10.1029/2011JB008485, January 2012. (Link)
・T. Saito, Y. Ito, D. Inazu, and R. Hino: Tsunami source of the 2011 Tohoku-Oki earthquake, Japan: Inversion analysis based on dispersive tsunami simulations. Geophysical Research Letters, 38(7), L00G19, doi:10.1029/2011GL049089, November 2011. (Link)
・Y. Ito, T. Tsuji, Y. Osada, M. Kido, D. Inazu, Y. Hayashi, H. Tsushima, R. Hino, and H. Fujimoto: Frontal wedge deformation near the source region of the 2011 Tohoku-Oki earthquake. Geophysical Research Letters, 38(7), L00G05, doi:10.1029/2011GL048355, August 2011. (Link)
・W. Sun, S. Miura, T. Sato, T. Sugano, J. Freymueller, M. Kaufman, C.F. Larsen, R. Cross, and D. Inazu: Gravity measurements in southeastern Alaska reveal negative gravity rate of change caused by glacial isostatic adjustment. Journal of Geophysical Research–Solid Earth, 115(B12), B12406, doi:10.1029/2009JB007194, December 2010. (Link)
Proceedings papers (peer reviewed) | 会議論文(査読有)
・大沢朋也・吴連慧・稲津大祐・鈴木樹・小野天椰・佐々木信和・池谷毅・岡安章夫:UAV画像を用いた機械学習用海岸線位置データの半自動生成.土木学会論文集B2(海岸工学),79(17),23-17193,doi:10.2208/jscejj.23-17193,2023年11月. (Link)
・高孝成・岡安章夫・池谷毅・稲津大祐:沿岸域の高潮・洪水同時浸水災害における避難対策と避難所の再配置に関する研究.地域安全学会論文集,41,251–260,doi:10.11314/jisss.41.251,2022年11月. (Link)
・望月航・池谷毅・吴連慧・稲津大祐・岡安章夫:UAV写真測量を用いた水中構造物の形状把握.土木学会論文集B2(海岸工学),78(2),I_1069–I_1074,doi:10.2208/kaigan.78.2_I_1069,2022年11月. (Link)
・L. Wu, D. Inazu, T. Ikeya, and A. Okayasu: Simultaneous observation of a sandy coast based on UAV and satellite X-band SAR. Journal of Japan Society of Civil Engineers, B2 (Coastal Engineering), 78(2), I_1051–I_1056, doi:10.2208/kaigan.78.2_I_1051, November 2022. (Link)
・金智哉・池谷毅・稲津大祐・岡安章夫・吴連慧:全方位カメラを用いた円筒周りの打ち上げ高の時空間分布計測とその特性.土木学会論文集B2(海岸工学),78(2),I_619–I_624,doi:10.2208/kaigan.78.2_I_619,2022年11月. (Link)
・望月航・池谷毅・吴連慧・稲津大祐・岡安章夫:画像幾何変換による水中構造物空中写真における水面屈折影響除去法.土木学会論文集B3(海洋開発),78(2),I_775–I_780,doi:10.2208/jscejoe.78.2_I_775,2022年6月. (Link)
・L. Wu, T. Ikeya, D. Inazu, A. Okayasu, Y. Fukumoto, and K. Sato: Evaluation of accessibility to offshore wind turbines by crew transfer vessels using artificial neural network. Journal of Japan Society of Civil Engineers, B3 (Ocean Engineering), 78(2), I_1–I_6, doi:10.2208/jscejoe.78.2_I_1, June 2022. (Link)
・小野天椰・岡安章夫・池谷毅・稲津大祐:歩行実験に基づく津波避難誘導標識の設置間隔の検討.地域安全学会論文集,39,391–399,doi:10.11314/jisss.39.391,2021年11月. (Link)
・望月航・鴻巣真央・池谷毅・稲津大祐・岡安章夫:単眼ビデオ画像解析による海洋構造物周辺の船舶の動揺計測法.土木学会論文集B3(海洋開発),77(2),I_655–I_660,doi:10.2208/jscejoe.77.2_I_655,2021年6月. (Link)
・K. Tani, T. Ikeya, and D. Inazu: A study on feasibility of the method of sampling and pull-up test. The Proceedings of the 31st International Ocean and Polar Engineering Conference, ISOPE-2021, ISOPE-I-21-2164, 1369–1373, June 2021. (Link)
・K. Tani, T. Ikeya, and D. Inazu: A study on feasibility of the method of sampling and cone penetration test. The Proceedings of the 14th ISOPE Pacific Asia Offshore Mechanics Symposium, PACOMS-2020, ISOPE-P-20-162, 279–284, November 2020. (Link)
・T.H. Luu, T. Ikeya, A. Okayasu, D. Inazu, and F. Kitamura: Evaluation of wave propagation characteristics using oblique UAV video images. Journal of Japan Society of Civil Engineers, B3 (Ocean Engineering), 76(2), I_642–I_647, doi:10.2208/jscejoe.76.2_I_642, July 2020. (Link)
・K. Tani, T. Ikeya, D. Inazu, and F. Hayashi: Proposal of a new sampling and sounding method using vibration for geotechnical investigation of seabed. 8th Japan-China Geotechnical Symposium, Japanese Geotechnical Society Special Publication, 8(7), 261–266, doi:10.3208/jgssp.v08.j46, March 2020. (Link)
・北村福太郎・稲津大祐・池谷毅・岡安章夫:複数の破堤シナリオを考慮した河川洪水からの最適避難経路の算出.土木学会論文集B1(水工学),75(2),I_1333–I_1338,doi:10.2208/jscejhe.75.2_I_1333,2019年11月. (Link)
・北村福太郎・稲津大祐・池谷毅・岡安章夫:津波避難計算を用いた避難経路の効果的な地震対策.土木学会論文集B2(海岸工学),75(2),I_1375–I_1380,doi:10.2208/kaigan.75.I_1375,2019年10月. (Link)
・T.H. Luu, T. Ikeya, A. Okayasu, and D. Inazu: Water depth evaluation using aerial image sensing and infrared laser scanning. Journal of Japan Society of Civil Engineers, B2 (Coastal Engineering), 75(2), I_1291–I_1296, doi:10.2208/kaigan.75.I_1291, October 2019. (Link)
・N.V. Khanh, A. Okayasu, T. Ikeya, D. Inazu, and V.P.D. Tri: Practical flow modelling of a small tidal river with insufficient hydrodynamic information. Journal of Japan Society of Civil Engineers, B2 (Coastal Engineering), 75(2), I_187–I_192, doi:10.2208/kaigan.75.I_187, October 2019. (Link)
・北村福太郎・稲津大祐・池谷毅・岡安章夫:津波浸水を考慮した避難経路選択に与える地形と浸水特性の影響.土木学会論文集B3(海洋開発),75(2),I_785–I_790,doi:10.2208/jscejoe.75.I_785,2019年7月. (Link)
・谷和夫・池谷毅・林史泰・稲津大祐:海域の表層地盤を調査するための振動を利用した貫入試験方法の提案と原型装置の開発.土木学会論文集B3(海洋開発),75(2),I_187–I_192,doi:10.2208/jscejoe.75.I_187,2019年7月. (Link)
・北村福太郎・稲津大祐・池谷毅・岡安章夫:津波浸水を考慮した避難経路および避難所選定ツールの開発.土木学会論文集B2(海岸工学),74(2),I_391–I_396,doi:10.2208/kaigan.74.I_391,2018年11月. (Link)
・鈴木章太郎・岡安章夫・宇野喜之・稲津大祐・池谷毅:津波群衆避難モデルにおける滞留時挙動の適正化と非難計画への活用.土木学会論文集B2(海岸工学),74(2),I_385–I_390,doi:10.2208/kaigan.74.I_385,2018年11月. (Link)
・池谷毅・大塚貴駿・稲津大祐・岡安章夫:橋梁上部工に作用する津波力に与える橋脚の影響.土木学会論文集B2(海岸工学),74(2),I_277–I_282,doi:10.2208/kaigan.74.I_277 ,2018年11月. (Link)
・R. Hino, Y. Ito, Y. Ohta, T. Iinuma, and D. Inazu: Ocean bottom pressure records of the 2011 Tohoku-Oki earthquake. Proceedings of the 11th SEGJ International Symposium, 462–465, doi:10.1190/segj112013-117, November 2013. (Link)