_プロフィール|About Me_
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馬場 俊孝 | Toshitaka Baba
教授・博士[理学]
Professor/Ph.D.
e-mail baba.toshi at tokushima-u.ac.jp
Graduate School of Science and Technology,Tokushima University
職歴/学歴
Careers
2015年1月~現在
徳島大学 大学院社会産業理工学研究部 社会基盤デザイン系 教授
・海洋研究開発機構 客員研究員(2017年5月~)
・香川大学 客員教授(2017年4月~)
・防災科学技術研究所 客員研究員(2016年11月~)
・海洋研究開発機構 招へい上席技術研究員(2015年4月~2017年3月)
1999年4月~2014年12月
海洋研究開発機構(元:海洋科学技術センター) 研究推進スタッフ/研究員/技術主任/技術研究員
・文部科学省 研究開発局 地震防災研究課 科学技術・学術行政調査員(2008年1月~2009年3月)
・ジオサイエンスオーストラリア 滞在研究員(2006年10月~2007年9月)
・博士(理学)(金沢大学)取得(2003年9月)
1998年4月~1999年3月
株式会社CSK
1998年3月
金沢大学理学部地学科 卒業
所属学会
Affiliated academic societies
日本地震学会,日本地球惑星科学連合,歴史地震研究会,アメリカ地球物理学連合,土木学会
受賞
Awards
2016年度日本地震学会技術開発賞 「地震・津波観測監視システム」の開発と地震学分野への貢献,公益社団法人日本地震学会
HPCS2016 最優秀論文賞(今任ほか、2016)
平成28年度徳島県科学技術大賞
Tectonophysics Top Cited Articles 2006 to 2011 awarded to Baba et al. (2006, Tectonophysics)
学術誌論文
Publications in journals (Peer reviewed)
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Yokoi, H., Baba, T., Lin, Z., Minami, T., Kamiya, M., Naitoh, A., & Toh, H. (2023). Simultaneous Inversion of Ocean Bottom Pressure and Electromagnetic Tsunami Records for the 2009 Samoa Earthquake. Journal of Geophysical Research: Solid Earth, 128(6), e2023JB026956. https://doi.org/10.1029/2023JB026956
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Pranantyo, I.R., Cipta, A., Shiddiqi, H.A., Baba, T., Imai, K. (2023). Source Reconstruction of the 1969 Western Sulawesi, Indonesia, Earthquake and Tsunami, Pure Appl. Geophys. 180, 1765–1783. https://doi.org/10.1007/s00024-022-03064-2
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Sato, K., Yamada, M., Ishimura, D., Ishizawa, T., & Baba, T. (2022). Numerical estimation of a tsunami source at the flexural area of Kuril and Japan Trenches in the fifteenth to seventeenth century based on paleotsunami deposit distributions in northern Japan. Progress in Earth and Planetary Science, 9(1), 1-24. https://doi.org/10.1186/s40645-022-00530-2
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Ramirez, A. B., Ramos, N. T., Nawanao, L. P., Z., R., Narag, I. C., Baba, T., Chikasada, N., & Satake, K. (2022). An earthquake-triggered submarine mass failure mechanism for the 1994 Mindoro tsunami in the Philippines: Constraints from numerical modeling and submarine geomorphology. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.1067002
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Baba, T., Kamiya, M., Tanaka, N. et al. Probabilistic tsunami hazard assessment based on the Gutenberg–Richter law in eastern Shikoku, Nankai subduction zone, Japan, Earth, Planets and Space, 74, 156, 2022.
https://doi.org/10.1186/s40623-022-01715-1
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Kamiya, M., Y. Igarashi, M. Okada, Baba, T., Numerical experiments on tsunami flow depth prediction for clustered areas using regression and machine learning models, Earth, Planets and Space, 74(1), 127, 2022.
https://doi.org/10.1186/s40623-022-01680-9
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Shigihara, Y., K. Imai, H. Iwase, K. Kawasaki, M. Nemoto, T. Baba, N.Y. Chikasada, Y. Chida, T. Arikawa, Variation analysis of multiple tsunami inundation models, Coastal Engineering Journal, 64, 344-371, https://doi.org/10.1080/21664250.2021.1991730, 2022.
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Zhang, B., X. Ding, F. Amelung, C. Wang, W. Xu, W. Zhu, M. Shimada, Q. Zhang, T. Baba, Impact of ionosphere on InSAR observation and coseismic slip inversion: Improved slip model for the 2010 Maule, Chile, earthquake, Rem. Sen. Env., 267, 112733, https://doi.org/10.1016/j.rse.2021.112733, 2021.12.
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Baba, T., N. Chikasada, K. Imai, Y. Tanioka, S. Kodaira, Frequency dispersion amplifies tsunamis caused by outer-rise normal faults, Sci. Rep., 11, 20064, https://doi.org/10.1038/s41598-021-99536-x, 2021.10.
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Yasuda, T., K. Imai, Y. Shigihara, T. Arikawa, T. Baba, N. Chikasada, Y. Eguchi, M. Kamiya, M. Minami, T. Miyauchi, K. Nojima, K. Pakoksung, A. Suppasri, Y. Tominaga, Numerical simulation of urban inundation processes and their hydraulic quantities - Tsunami analysis hackathon theme 1 -, J. Disaster Res., 16, 978-993, https://doi.org/10.20965/jdr.2021.p0978, 2021.10.
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Baba, T., N. Chikasada, Y. Nakamura, G. Fujie, K. Obana, S. Miura, Deep investigations of outer-rise tsunami characteristics using well-mapped normal faults along the Japan Trench, J. Geo. Res.: Solid Earth; 125, https://doi.org/10.1029/2020JB020060, 2020.09.
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Baba, T., Y. Gon, K. Imai, K. Yamashita, T. Matsuno, M. Hayashi, H. Ichihara, Modeling of a dispersive tsunami caused by a submarine landslide based on detailed bathymetry of the continental slope in the Nankai trough, southwest Japan, Tectonophysics, 768, 228182, https://doi.org/10.1016/j.tecto.2019.228182, 2019.08.
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Saito, T., T. Baba, D. Inazu, S. Takemura, E. Fukuyama, Synthesizing sea surface height change including seismic waves and tsunami using a dynamic rupture scenario of anticipated Nankai trough earthquakes, Tectonophysics, https://doi.org/10.1016/j.tecto.2019.228166, 2019.07.
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Yoshikawa, M., Y. Igarashi, M. Murata, T. Baba, T. Hori, M. Okada, A nonlinear parametric model based on a power law relationship for predicting the coastal tsunami height, Mar. Geophys. Res., 40, 467-477, https://doi.org/10.1007/s11001-019-09388-4, 2019.06.
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森下朔,水口竜一,金井純子,馬場俊孝,要介護者の避難行動速度,自然災害科学,37, 397-406, 2019.03.
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今井 健太郎, 中井 健太郎, 野田 利弘, 新井 伸夫, 岩間 俊二, 馬場 俊孝,堤体基礎の地震動脆弱性が津波氾濫解析に与える影響に関する検討,土木学会論文集B2(海岸工学),74,I_247-I_252, https://doi.org/10.2208/kaigan.74.I_247, 2018.
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仲矢直樹,浅井光輝,馬場俊孝,正垣翔大,2次元差分法による津波遡上解析における建築物・堤防のモデル化忠実度が与える差異,土木学会論文集A1(構造・地震工学),74,I_1052-I_1061,https://doi.org/10.2208/jscejseee.74.I_1052,2018.
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石橋正信,馬場俊孝,高橋成実,今井健太郎,DONET観測情報を活用した津波予測システムの社会実装-和歌山県の事例-,自然災害科学,37, 125-142, 2018.05.
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Takahashi, N., K. Imai, K. Sueki, R. Obayashi, M. Tanabe, T. Baba, K. Kaneda, Real-time tsunami prediction system based on seafloor observatory data applied to the inland Sea, Japan, Marine Technology Society Journal, 52, https://doi.org/10.4031/MTSJ.52.3.12, 2018.05.
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Taniguchi, J., K. Tagawa, M. Yoshikawa, Y. Igarashi, T. Ohsumi, H. Fujiwara, T. Hori, M. Okada, T. Baba, Selection of Tsunami Observation Points Suitable for Database-Driven Prediction, Journal of Disaster Research, 13, 245-253, doi:10.20965/jdr.2018.p0245, 2018.03.
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山中亮一, 中川頌将, 上月康則, 馬場俊孝, 液状化に伴う沈下を考慮した徳島県東部での津波浸水過程の数値的検討,土木学会論文集B2(海岸工学),73,I_289-I_294,https://doi.org/10.2208/kaigan.73.I_289,2017.10.
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Ichimura, T., R. Agata, T. Hori, K. Satake, K. Ando, T. Baba and M. Hori, Tsunami Analysis Method with High-Fidelity Crustal Structure and Geometry Model, Journal of Earthquake and Tsunami, 11, 1750018, DOI: 10.1142/S179343111750018X, 2017.10.
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Takahashi, N., K. Imai, M. Ishibashi, K. Sueki, R. Obayashi, T. Tanabe, F. Tamazawa, T. Baba, and Y. Kaneda, Real-Time Tsunami Prediction System Using DONET, J. Disaster Research, 12, 766-774, doi: 10.20965/jdr.2017.p0766, 2017.08.
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Baba, T., J. Taniguchi, N. Kusunoki, M. Miyoshi, H. Aki, Preliminary Study on Long-Term Flooding After the Tsunami, J. Disaster Research, 12, 741-747, doi:10.20965/jdr.2017.p0741, 2017.08.
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Katsumata, A., Y. Hayashi, K. Miyaoka, H. Tsushima, T. Baba, P. A. Catalán, C. Zelaya, F. Riquelme Vasquez, R. Sanchez-Olavarria, and S. Barrientos, Stand-alone tsunami alarm equipment, Nat. Hazards Earth Syst. Sci., 17, 685-692, doi:10.5194/nhess-17-685-2017, 2017.05.
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Baba, T., S. Allgeyer, J. Hossen, P.R. Cummins, H. Tsushima, K. Imai, K. Yamashita, and T. Kato, Accurate numerical simulation of the far-field tsunami caused by the 2011 Tohoku earthquake, including the effects of Boussinesq dispersion, seawater density stratification, elastic loading, and gravitational potential change, Ocean Modelling, 111, 46-54, doi:10.1016/j.ocemod.2017.01.002, 2017.03.
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Igarashi, Y., T. Hori, S. Murata, T. Baba and M. Okada, Maximum tsunami height prediction using pressure gauge data by a Gaussian process at Owase in the Kii Peninsula, Japan, Mar. Geophys. Res, 37, 361-370, doi:10.1007/s11001-016-9286-z, 2016.12.
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谷口純一, 馬場俊孝, 三好学, 安芸浩資,徳島市を対象とした津波による流入水の堤外排水シミュレーション,土木学会論文集B2(海岸工学),72,p. I_1525-I_1530,2016.11.
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Nakamura, T. and T. Baba, Development of semi-real-time tsunami monitoring and calculation system on ocean-bottom stations off the Kii peninsula, southwest Japan, Marine Tech. Soc. J., 50(3), 76–86, doi: 10.4031/MTSJ.50.3.11, 2016.05.
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今任嘉幸,石橋正信,馬場俊孝,安藤和人,上原均,加藤季広,新地球シミュレータによる高分解能・量的津波シミュレーョン,情報処理学会論文誌:ハイパフォーマンスコンピューティングと計算科学シンポジウム論文集,1-8,2016.05.
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Ando, K., M. Hyodo, T. Baba, T. Hori, T. Kato, M. Watanabe, S. Ichikawa, H. Kitahara, H. Uhehara, H. Inoue, Parallel-algorithm Extension for Tsunami and Earthquake-cycle Simulators for Massively Parallel Execution on the K Computer, Inter. Jour. of High Per. Comp. App., doi: 10.1177/1094342016636670, 2016.03.
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Baba, T., K. Ando, D. Matsuoka, M. Hyodo, T. Hori, N. Takahashi, R. Obayashi, Y. Imato, D. Kitamura, H. Uehara, T. Kato, R. Saka, “Large-scale, high-speed tsunami prediction for the great Nankai trough earthquake on the K computer”, Inter. Jour. of High Per. Comp. App., 30, 71-84, doi:10.1177/1094342015584090, 2016.02.
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Baba, T., N. Takahashi, Y. Kaneda, K. Ando, D. Matsuoka, and T. Kato, “Parallel implementation of dispersive tsunami wave modeling with a nesting algorithm for the 2011 Tohoku tsunami”, Pure appl. Geophys., 172, 3455–3472, doi:10.1007/s00024-015-1049-2, 2015.12.
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Hossen, M. J., P. R. Cummins, J. Dettmer, T. Baba, Time reverse imaging for far-field tsunami forecasting: 2011 Tohoku earthquake case study, Geophys. Res. Lett., doi: 10.1002/2015GL065868, 2015.11.
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Hossen, M. J., P. R. Cummins, J. Dettmer, T. Baba, Tsunami waveform inversion for sea surface displacement following the 2011 Tohoku earthquake: Importance of dispersion and source kinematics, J. Geophys. Res., Solid Earth, 120, doi:10.1002/2015JB011942, 2015. 09.
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Kaneda Y., N. Takahashi, T. Baba, K. Kawaguchi, E. Araki, H. Matsumoto, T. Nakamura, S. Kamiya, K. Ariyoshi, T. Hori, M., Hyodo M. Nakano, J.-K. Choi, S. Nishida, and T. Yokobiki, “Advanced Real Time Monitoring System and Simulation Researches for Earthquakes and Tsunamis in Japan, in V. S.-Fandiño et al. (ed.) : Post-Tsunami Hazard: Restoration and Reconstruction”, SPRINGER, pp. 179-189, doi:10.1007/978-3-319-10202-3_12, 2015.01.
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Kaneda, Y., K. Kawaguchi, E. Araki, H. Matsumoto, T. Nakamura, S. Kamiya, K. Ariyoshi, T. Hori, T. Baba and N. Takahashi, “Development and application of an advanced ocean floor network system for meagthrust earthquakes and tsunamis”, Seafloor Observatories, Springer Praxis, pp.643-662. 2015.01.
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Hyodo, M., T. Hori, K. Ando, T. Baba, The possibility of deeper or shallower extent of the source area of Nankai Trough earthquakes based on the 1707 Hoei tsunami heights along the Pacific and Seto Inland Sea coasts, southwest Japan, Earth, Planets and Space, 66, doi:10.1186/1880-5981-66-123, 2014.09.
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Baba, T., N. Takahashi, and Y. Kaneda, “Near-field tsunami amplification factors in the Kii Peninsula, Japan for Dense Oceanfloor Network for Earthquakes and Tsunamis (DONET)”, Mar. Geophys. Res, 35, pp.319-325, DOI 10.1007/s11001-013-9189-1, 2014.09.
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Baba, T., N. Takahashi, Y. Kaneda, Y. Inazawa and M. Kikkojin, “Tsunami Inundation Modeling of the 2011 Tohoku Earthquake using Three-Dimensional Building Data for Sendai, Miyagi Prefecture, Japan”, Tsunami Events and Lessons Learned, Advances in Natural and Technological Hazards Research, 35, pp.89-98, DOI 10. 1007/978-94-007-7269-4_3, 2014.02.
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Baba, T., H. Matsumoto, K. Kashiwase, T. Hyakudome, Y. Kaneda, and M. Sano, “Micro-bathymetric Evidence for the Effect of Submarine Mass Movement on Tsunami Generation During the 2009 Suruga Bay Earthquake, Japan”, Submarine mass movements and their consequences, Advances in Natural and Technological Hazards Research, 31, pp.485-495, 2012.06.
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Matsumoto, H., T. Baba, K. Kashiwase, T. Mitsu, and Y. Kaneda, “Discovery of Submarine landslide Evidence Due to the 2009 Suruga Bay Earthquake”, Submarine mass movements and their consequences, Advances in Natural and Technological Hazards Research, 31, pp.549–559, 2012.06.
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Saito T., T. Matsuzawa, K. Obara and T. Baba, “Dispersive tsunami of the 2010 Chile earthquake recorded by the high-sampling-rate ocean-bottom pressure gauges”, Geophys. Res. Lett., doi:10.1029/2010GL045290, 2010.12.
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牧紀男,陳海立,馬場俊孝,澤田雅浩,鈴木伸吾,佐藤栄治,能島暢呂.”長期湛水被害からの災害対応・復旧のあり方に関する研究―南海地震による高知市を事例として―”, 地域安全学会論文集, 13, pp.195-202, 2010.11.
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松本浩幸, 馬場俊孝, 柏瀬憲彦, 金田義行, 三須敏郎, 堀哲郎.”2009年8月11日に駿河湾で発生した地震による深層水取水管の被災とその要因”, 土木学会論文集B2(海岸工学), 66, pp.1341-1345, 2010.11.
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Sato, K., T. Baba, T. Hori, M. Hyodo, and Y. Kaneda, “Afterslip distribution following the 2003 Tokachi-oki earthquake: An estimation based on the Green's functions for an inhomogeneous elastic space with subsurface structure”, Earth Planets Space, 62, pp.923-932, DOI :10.5047/eps.2010.11.007, 2010.12.
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Li W., Y. Harry, K. Hirata, T. Baba, “Ocean-bottom pressure variations during the 2003 Tokachi-oki earthquake”, Nonlinear Wave Dynamics, World Scientific, pp.109-126, 2009.02.
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Baba, T., P.R. Cummins, H.K. Thio, and H. Tsushima, “Validation and Joint Inversion of Teleseismsic Waveforms for Earthquake Source Models Using Deep Ocean Bottom pressure records: A Case Study of the 2006 Kuril Megathrust Earthquake”, Pure appl. Geophys., 166, pp.55-76, DOI 10.1007/s00024-008-0438-1, 2009.02.
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Baba, T., R. Mleczko, D. Burbidge, P.R. Cummins, and H.K. Thio, “The effect of the Great Barrier Reef on the propagation of the 2007 Solomon Islands Tsunami Recorded in Northeastern Australia”, Pure appl. Geophys., 165, pp.2003–2018, DOI 10.1007/s00024-008-0418-5, 2008.12.
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Furumura, T., T. Hayakawa, M. Nakamura, K. Koketsu and T. Baba, “Development of Long-period Ground Motions from the Nankai Trough, Japan, Earthquakes: Observations and Computer Simulation of the 1944 Tonankai (Mw 8.1) and the 2004 SE Off-Kii Peninsula (Mw 7.4) Earthquakes”, Pure appl. Geophys., 165, pp.585-607, DOI 10.1007/s00024-008-0318-8, 2008.04.
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Sato, K., N. Miyagawa, M. Hyodo, T. Baba, T. Hori, and Y. Kaneda, “Effect of elastic inhomogeneity on the surface displacements in the northeastern Japan: Based on three dimensional numerical modeling”, Earth Planes Space, 59, pp.1083-1093, 2007.10.
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Baba, T., K. Hirata, T. Hori and H. Sakaguchi, “Offshore geodetic data conducive to the estimation of the afterslip distribution following the 2003 Tokachi-oki earthquake”, Earth Planet Sci. Lett., 241, pp.281-292, 2006.01.
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Baba, T., P.R. Cummins, T. Hori and Y. Kaneda, “High precision slip distribution of the 1944 Tonankai earthquake inferred from tsunami waveforms: Possible slip on a splay fault”, Tectonophysics, 426, pp.119-134, 2006.10.
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Hirata, K., and T. Baba, “Transient thermal response in ocean bottom pressure measurement”, Geophys. Res. Lett., 33, L10606, doi:10.1029/2006GL026084, 2006.05.
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Kodaira, S., T. Hori, A. Ito, S. Miura, G. Fujie, J. Park, T. Baba, H. Sakaguchi, and Y. Kaneda, “A cause of rupture segmentation and synchronization in the Nankai trough revealed by seismic imaging and numerical simulation”, J. Geophys. Res., 111, B09301, doi:101029/2005JB004030, 2006.09.
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Mikada, H., K Mitsuzawa, H. Matsumoto, T. Watanabe, S. Morita, R. Otsuka, H. Sugioka, T. Baba, E. Araki and K. Suyehiro, “New discoveries in dynamics of an M8 earthquake -Phenomena and their implications from the 2003 Tokachi-oki earthquake using a long term monitoring cabled observatory”, Tectonophysics, 426, pp.95-105, 2006.10.
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Baba, T. and P.R. Cummins, “Contiguous rupture areas of two Nankai Trough earthquakes revealed by high-resolution tsunami waveform inversion”, Geophys. Res. Lett., 32, L08304, doi:10.1029/004GL022320, 2005.04.
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Baba, T., P.R. Cummins, and T. Hori, “Compound fault rupture during the 2004 off the Kii Peninsula earthquake (M 7.4) inferred from highly resolved coseismic sea-surface deformation”, Earth Planets Space, 57, pp.167-172, 2005.03.
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Satake, K., T. Baba, K. Hirata, S. Iwasaki, T. Kato, S. Koshimura, J. Takenaka, and Y. Terada, “Tsunami source of the 2004 off the Kii-Peninsula earthquakes inferred from offshore tsunami and coastal tide gauges”, Earth Planets Space, pp.173-178, 2005.03.
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Uhira, K., T. Baba, H. Mori, H. Katayama, and N. Hamada, “Earthquake swarms preceding the 2000 eruption of Miyakejima volcano, Japan”, Bull. Volcanol., 67, pp.219-230, doi:10.1007/s00445-004-0405-3, 2005.01.
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Baba, T., K. Hirata and Y. Kaneda, “Tsunami magnitude determined from ocean-bottom pressure gauge data around Japan”, Geophys. Res. Lett., 31, L08303, doi:10.1029/2003GL019397, 2004.04.
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Smith, A.J., P.R. Cummins, T. Baba, S. Kodaira, Y. Kaneda, and H. Yamaguchi, “Intra-plate seismicity in the subdcuting Philippine Sea Plate, southwest Japan: magnitude-depth correlations”, Phys. Earth Planet. Inter., 145, pp.179-202, 2004.07.
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Hori, T., N. Kato, K. Hirahara, T. Baba and Y. Kaneda, “A numerical simulation of earthquake cycles along the Nankai trough in southwest Japan: Lateral variation in frictional property due to the slab geometry controls the nucleation position”, Earth Planet. Sci. Lett., 228, pp.215-226, 2004.12.
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Baba, T., Y. Tanioka, P. R. Cummins, and K. Uhira, “The slip distribution of the 1946 Nankai earthquake estimated from tsunami inversion using a new plate model”, Phys. Earth Planet. Inter., 132, pp.59-73, 2002.09.
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Cummins P. R., T. Baba, S. Kodaira, and Y. Kaneda, “The 1946 Nankaido earthquake and segmentation of the Nankai Trough”, Phys. Earth Planet. Inter., 132, pp.75-87, 2002.09.
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Baba, T., Takane Hori, Satoshi Hirano, Phil R. Cummins, Jin-Oh Park, Masanori Kameyama, and Yoshiyuki Kaneda, “Deformation of a seamount subducting beneath an accretionary prism: Constraints from numerical simulation”, Geophys. Res. Lett., 28, No.9, pp.1827-1830, 2001.05.
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Cummins P. R., 馬場俊孝, 堀高峰, 金田義行. ”1946 年南海地震震源過程から推定された南海トラフ巨大地震に対するフィリピン海プレート形状の影響”, 地学雑誌, 110, pp.498-509, 2001.11.
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亀山真典,堀高峰,Cummins P. R., 平野聡,馬場俊孝,金田義行. ”摩擦熱を考慮したせん断変形のシミュレーション”, 地震研究所彙報, 75, pp.127-143, 2000.06.
国際会議論文
Publicaitons in internatinal conference papers (Peer reviewed)
1.
Kaneda, Y., E. Araki, H. Matsumoto, T. Nakamura, S. Kamiya, K. Ariyoshi, T. Hori, M. H. N. Takahashi, T. Baba, M. Nakano, J. K. Choi, S. Nishida, Advanced technology and application of the ocean floor observatory around the Nankai trough, Southwestern Japan, OCEANS 2014 – TAIPEI, doi:10.1109/OCEANS-TAIPEI.2014.6964436, 2014.04.
2.
Kawaguchi, K., E. Araki, M. Hoshino, T. Yokobiki,H. Matsumoto, S. Nishida, J. Choi, T. Kimura, N. Takahashi, T. Baba, M. Nakano, T. Nakamura, Y. Kaneda, Decision-making on seafloor surveillance infrastructure site for Earthquake and Tsunami monitoring in Western Japan, OCEANS 2014 – TAIPEI, doi:10.1109/OCEANS-TAIPEI.2014.6964514, 2014.04.
3.
Kawaguchi, K., E. Araki, T. Baba, T. Nakamura, Y. Kaneda, Tsunami monitoring using submarine cabled seafloor observatory, 2013 Ocean Electronics (SYMPOL), 2013.10.
4.
Takahashi, N., T. Baba, M. Takaesu, S. Kamiya, K. Kawaguchi, Y. Kaneda, Risk management strategy of DONET installation and the utilization of real-time data for disaster prevention, Underwater Technology Symposium (UT), 2013 IEEE International, doi: 10.1109/UT.2013.6519843, 2013.05.
5.
Baba, T., N. Takahashi, Y. Kaneda, “A Numerical Study for Relationship between Coastal Tsunami and Bottom Pressure Fluctuation in the Ocean Generated from Near-Field Earthquake”, Underwater Technology Symposium (UT), 2013 IEEE International, doi: 10.1109/UT.2013.6519837 2013.05.
6.
Baba, T., N. Takahashi, Y. Kaneda, “A Numerical Study for Relationship between Coastal Tsunami and Bottom Pressure Fluctuation in the Ocean Generated from Near-Field Earthquake”, International Symposium on Underwater Technology 2013, 1045, pp.1-3, 2013.02.
7.
Baba, T., R. Mleczko, P. R. Cummins, H. K. Thio, and D. Burbidge, “Accurate tsunami modelling due to the 2007 Solomon earthquake by using the seismic rupture model and the GA-DBDB2 bathymetric dataset”, Proceedings of HYDRO 2007 Workshop, pp.47-53, 2007.11.
8.
Hori, T., T. Baba, P. R. Cummins, and Y. Kaneda, “Effects of Subducted Seamounts on the Source Process of the 1946 Nankai Earthquake, SW Japan”, Proceedings of 2nd ACES Workshop, pp.271-274, 2001.10.
9.
Kameyama, M., T. Hori, P. R. Cummins, S. Hirano, T. Baba, K. Uhira, and Y. Kaneda, “An Optimistic interpretation of friction law from thermal-mechanical coupling in shear deformation of viscoelastic material”, Proceedings of 2nd ACES Workshop, pp.91-95, 2001.10.
科学研究費補助金・受託研究等
Grant-in-Aids
3.
大規模・高分解能数値シミュレーションの連携とデータ同化による革新的地震・津波減災ビックデータ解析基盤の創出,戦略的創造研究推進事業(研究タイプ:CREST),分担(代表者 越村俊一),2016年度~2019年度.
4.
南海トラフにおける海底地すべり津波の高精度シミュレーション,中部電力,代表,2016~2017年度.
5.
津波防災分野における疎性モデリングの適用,新学術領域研究(疎性モデリング:公募研究),代表,2016~2017年度.
6.
関西地域を対象とした都市防災の計算科学研究ー地震津波対策と集中豪雨被害のハザードマップの作成ー, 研究拠点(COE)形成推進事業, 分担(代表者 富田 浩文)2016年度.
7.
史料・地質調査データの非線形逆解析による巨大歴史津波の発生機構の解明,科学研究費補助金若手研究(B),代表,2015年度~2018年度.
8.
階層ベイズモデルを用いたリアルタイム津波予測の高正確度・高精度化に関する研究,科学研究費補助金基盤研究(B),分担(代表者 高川智博),2015年度~2018年度.
9.
津波に強い地域づくり技術の向上に関する研究(チリ), 地球規模課題対応国際科学技術協力, 分担(代表者 富田孝史), 2011年度から2015年度.
10.
地方都市を主対象とした津波・高潮による長期湛水防除計画の評価システムの構築に向けた基礎的研究(その1),ニタコンサル株式会社,代表,2015年度.
12.
デジタル道路地図(DRM)と被害シミュレーションの融合等による災害対応業務即時
支援プロジェクト,G空間情報を活用したLアラート高度化事業,総務省,分担(代表者 坂東淳),2015年度.
13.
海溝型地震、高潮災害による「長期湛水」被害に対する防災戦略の構築, 科学研究費補助金基盤研究(A), 分担(代表者 牧紀男), 2009年度~2013年度.
14.
津波・地震波データの同時インバージョンによる震源過程の推定, 科学研究費補助金若手研究(B), 代表, 2006年度~2008年度.
15.
海底水圧計・地震計データの解析による津波地震の発生メカニズムの研究, 科学研究費補助金基盤研究(C), 分担(代表者 平田賢治), 2003年度~2005年度.
委員など
Committees
1.
文部科学省地震調査研究推進本部, 津波評価部会委員, 2012年度~現在.
2.
日本地震学会 代議員,2018年度~2020年度.
3.
歴史地震研究会 幹事(行事委員長),2018年度~2019年度.
4.
地球惑星科学連合 代議員(固体地球科学),2018年度~2019年度.
5.
日本地震学会,理事(大会企画担当),2016年度~2017年度.
6.
日本地震学会, 地震編集委員, 2015年度~2017年度.
7.
日本地震学会2013年度秋季大会, 日本地震学会, LOC委員, 2013年10月.
8.
日本地震学会, 大会・企画委員, 2006年度,2009年度~2010年度, 2012年度~2013年度.
9.
和歌山県, 陸地到達予測システムアドバイザー, 2013年度.
10.
香川県さぬき市, 市立中央小学校津波対策会議委員, 2011年度.
