latest update : 1st/April/2024
April/2022 - Present : Assistant Professor, Water Resources Research Center (WRRC), Disaster Prevention Research Institute (DPRI), Kyoto University.
March/2019: Doctor of Philosophy in the field of Civil Engineering, The University of Tokyo.
Dissertation: "Analysis of Geospatial Flood Risk Structure and its Natural and Social Factors"
June/2016: Engineering Degree (Master Grade), École des Ponts ParisTech, Department City-Environment-Transport.
in French: Diplôme d'Ingénieur, Grade de Master, École Nationale des Ponts et Chaussées, Département Ville-Environnement-Transport.
March/2016: M.S. in Civil Engineering, The University of Tokyo, Faculty of Engineering, Dept. of Civil Engineering.
March/2013: B.S. in Civil Engineering, The University of Tokyo, Faculty of Engineering, Dept. of Civil Engineering.
August/2021 - March/2024 : Collaborative Researcher, Kotsuki Laboratory, Center for Environmental Remote Sensing (CEReS), Chiba University
April/2021 - March/2022: Research Fellowship for Young Scientists PD, Japan Society for the Promotion of Science (JSPS) @ Kyoto University, Disaster Prevention Research Institute
April/2020 - March/2021: Researcher @ Kyoto University, Disaster Prevention Research Institute.
May/2020 - March/2021: Visiting Researcher @ University of Tokyo, River and Environmental Engineering Laboratory.
April/2019 - March/2020: Research Fellowship for Young Scientists PD (converted from DC2), Japan Society for the Promotion of Science (JSPS) @ Kyoto University, Disaster Prevention Research Institute.
April/2018 - March/2019: Research Fellowship for Young Scientists DC2, Japan Society for the Promotion of Science (JSPS) @ The University of Tokyo, River and Environment Engineering Laboratory.
April/2017 - March/2018: Part-time Lecturer of Hydraulics, National Institute of Technology, Kisarazu Collage. (Whole year, Hydraulics 1 & Hydraulics 2.)
April/2016 - March/2018: Research Assistant (SEUT-RA Type A), The University of Tokyo.
April/2015 - March/2018: Teaching Assistant (Lectures: Hydraulics, River Engineering, Project Study), The University of Tokyo.
July/2014 - August/2014: Researcher(Intern), Laboratoire Eau Environnement et Systèmes Urbains, École des Ponts ParisTech, Université Paris-Est Créteil et AgroParisTech. (in French)
Theme: "Analyse des problématiques de la concertation et de la négociation autour des lacs-réservoirs sur la Seine : Introduction de la redevance de service rendu et révision des règlements d’eau"
Peer-reviewed Articles: 6 as first author, 18 as co-author, 4 under-review.
xx. (submitted, first-author)
33.Sayama, T., Yamada, M., Yamakita, A. et al. Parameter regionalization of large-scale distributed rainfall–runoff models using a conditional probability method. Prog Earth Planet Sci 12, 17 (2025). DOI:10.1186/s40645-025-00691-w
32.(To translate) 早崎水彩,山田真史,佐山敬洋,瀧健太郎:琵琶湖水位と連動した統合水理モデルによる「地先の安全度」評価.土木学会論文集,Vol.81,No.16,Article.24-16012,2025.
31.(To translate) 桐森元規,山田真史,堀智晴:氾濫原内の避難開始地点の違いが避難開始の目安水位に与える影響.土木学会論文集,Vol.81,No.16,Article.24-16211,2025.
30.(To translate) 福井治,西澤諒亮,岩見収二,山田真史,佐山敬洋,瀧健太郎:流域治水検討に適用するためのRRIモデルのパラメータ設定手法.河川技術論文集,Vol.30,pp.531-536, 2024.
29.Chen, J., Sayama, T., Yamada, M., Sugawara, Y. Regional event-based flood quantile estimation method for large climate projection ensembles. Progress in Earth and Planetary Science, Vol.11, Article. 16, 2024 (DOI: 10.1186/s40645-024-00618-x).
28.(To translate) 菅原快斗,佐山敬洋,山田真史,山本浩大:広域かつ高速な降雨流出氾濫計算のためのマクロスケールRRIモデルの開発.土木学会論文集,Vol.80,No.16,Article.23-16125,2024.
27.(To translate) 井上湧太,堀智晴,山田真史:農業用ダムを利用した稲作灌漑に関する気候変動に伴う長期的な影響分析.土木学会論文集,Vol.80,No.16,Article.23-16119,2024.
26.(To translate) 柏田仁,窪田利久,平本達典,山田真史,佐山敬洋,二瓶泰雄:河川流・氾濫流一体解析による令和2年球磨川水害における建物流失率の検討.河川技術論文集,Vol.29, pp.401-406, 2023.
25.Sasaki, O., Tsumura, Y., Yamada, M., Hirabayashi, Y. Automatic levee detection using a high-resolution DEM − Case study in Kinu river basin, Japan. Hydrological Research Letters (HRL), Vol.17, Issue 1, pp.9-14, 2023. DOI:10.3178/hrl.17.9
24.Momoi, M., Kotsuki, S., Kikuchi, R., Watanabe, S., Yamada, M., Abe, S. Emulating rainfall-runoff-inundation model using deep neural network with dimensionality reduction. Artificial Intelligence for the Earth Systems, Vol.2, pp.1-25, 2022. DOI: 10.1175/AIES-D-22-0036.1
23.佐山敬洋,山田真史,菅原快斗,近者敦彦,関本大晟,山崎大(2022)広域降雨流出氾濫モデルによる浸水分布の推定 -地形補正の効果検証-.土木学会論文集B1(水工学),accepted.
22.藤村健介,小槻峻司,山田真史,塩尻大也,渡部哲史(2022)降雨流出氾濫モデルのアンサンブルデータ同化安定化に関する研究.土木学会論文集B1(水工学),accepted.
21.Baig, S., Sayama, T., Yamada, M. Quantifying the changes in the runoff and its components across the Upper Indus River Basin under climate change. Journal of Water & Climate Change, Article.153, 2022. DOI:10.2166/wcc.2022.153
20.Yamada, M., Sayama, T., Yamazaki, D., Watanabe, M. Development of Methodology for Introducing Surveyed River Cross-Sections into Nationside Distributed Hydrological Model Throughout Japan, and its Effect on Water Level Prediction Accuracy. Journal of Japan Society of Civil Engineering Series B1(Hydraulic Engineering), Vol.78, No.1, pp.7-22, 2022. DOI: https://doi.org/10.2208/jscejhe.78.1_7.
19.本田洋平,渡部哲史,知花武佳,山田真史,阿部紫織,菊地純,斉藤健,伊藤俊介,藤沢直志,池内幸司(2021)大規模気候予測情報に基づく河川流量将来変化倍率の幅に関する考察.土木学会論文集B1(水工学),77(2),l_175-l_180.(To translate)
18.武藤裕花,知花武佳,山田真史,渡部哲史(2021)地質の異なる山地河川流域における月別平均流量と複数区間の総降水量の関係性.土木学会論文集B1(水工学),77(2),l_151-l_156.(To translate)
17.Onaka, N., Akamatsu, Y., Yano, S., Nihei, Y., Yamada, M., Sayama, T. Elucidation of the actual state on the flood in the upstream part of the Kuma river during the heavy rain in July 2020. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), Vol.77, No.1, pp.203-214, 2021. (in Jpn with Eng abstract) (doi:10.2208/jscejhe.77.1_203).
16. Sayama, T., Yamada, M., Sugawara, Y., Yamazaki, D. Ensemble Flash Flood Predictions Using a High-Resolution Nationwide Distributed Rainfall-Runoff Model: Case Study of the Heavy Rain Event of July 2018 and Typhoon Hagibis in 2019. Progress in Earth and Planetary Science (PEPS), 7, 75, 2020. (doi:10.1186/s40645-020-00391-7)
15. Watanabe, S., Yamada, M., Abe, S., Hatono, M. Bias Correction of d4PDF using a moving window method and their uncertainty analysis in estimation and projection of design rainfall depth. Hydrolocigal Research Letters. Vol.14, No.3, p.117-122, in press. (doi:10.3178/hrl.14.117)
14. Sekimoto, T., Watanabe, S., Kotsuki, S., Yamada, M., Abe, S., Watanuki, A. Predicting Flood Inundation Area By Rainfall-Runoff-Inundation Model Emulator. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), Vol.76, No.2, pp.I_547-I_552, 2020. (in Jpn with Eng abstract)
13. Kotsuki, S.,Momoi, M., Kikuchi, R., Watanabe, S., Yamada, M., Abe, S., Watanuki, A. Emulating Rainfall-Runoff-Inundation Model Through Ensemble Learning of Multiple Regulalized Regressors. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), Vol.76, No.2, pp.I_367-I_372, 2020. (in Jpn with Eng abstract)
12. Sahu, N., Saini, A., Behera, S., Sayama, T., Nayak, S., Sahu, L., Duan, W., Avtar, R., Yamada, M., Singh, R., Takara, K. Impact of Indo-Pacific Climate Variability on Rice Productivity in Bihar, India. Sustainability, Vol12, p.7023, 2020. (https://doi.org/10.3390/su12177023)
11. Yamada, M., Togashi, S., Sayama, T. Estimation Method of Cross-Section of Small Rivers for Distributed Rainfall-Runoff-Inundation Models. Advances in River Engineering, Vol.26, p.211-216. (in Jpn with Eng abstract)
10. Panda, A., Sahu, N., Behera, S., Sayama, T., Sahu, L., Avtar R., Singh, R. B., Yamada, M. Impact of Climate Variability on Crop Yield in Kalahandi, Bolangir, and Koraput Districts of Odisha, India. Climate, Vol.7, Issue 11, p.126, 2019. (https://doi.org/10.3390/cli7110126)
9. Kageyama, Y., Yamada, M., Watanabe, S., Ikeuchi, K. A study on relationship between accumulated rainfall and flood peak discharge using large ensemble experiment data. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), in press. (in Jpn with Eng abstract)
8. Muto, Y., Watanabe, S., Yamada, M., Chibana, T. Consideration on social characteristics of frequently flooded areas in Japan focusing on geography and population trend. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), in press. (in Jpn with Eng abstract)
7. Abe, S., Watanabe, S., Yamada, M., Kotsuki, S., Watanuki, A. Impact of observed rainfall and pattern of sea surface temperature on flood analysis using massive climate prediction data. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), in press. (in Jpn with Eng abstract)
6. Yamada, M., Chibana, T., Watanabe, S. Analysis of geospatial structure of flood hazard based on local hazard curves, and its natural and social factors. Advances in River Engineering, Vol.25, pp.37-42, 2019. (in Jpn with Eng abstract)
5. Yamada, M., Chibana, T., Watanabe, S. Flood risk evaluation of Class-A river systems using risk curves based on flood disaster statistics. Journal of Japan Society of Civil Engineers, Series B1 (Hydraulic Engineering), Vol.75, pp.I_1399-I_1404, 2018. (in Jpn with Eng abstract)
4. Yamada, M., Chibana, T., Watanabe, S. Flood risk evaluation of municipality scale, based on flood disaster statistics. Journal of Japan Society of Civil Engineers, Series G (Environment). Vol.74, No.5, pp.I_273-I_284, 2018. (in Jpn with Eng abstract)
3. Yamazaki, K., Chibana, T., Yamada, M., Watanabe, S. Analysis of education in rivers focusing on "Children's Waterside" and suggestion of available resources in each river characteristics. Advances in River Engineering, Vol.24, pp.373-378, 2018. (in Jpn with Eng abstract)
2. Hiroo, T., Yamada, M., Chibana, T., Harada, D. Research of characteristics of landuse on alluvial fans by focusing on geology and characteristics of river. Advances in River Engineering, Vol.23, pp.335-340, 2017. (in Jpn with Eng abstract)
1. Yamada, M., Chibana, T., Harada, D., Analysis of activation factors of public involvement during forming process of river improvement plans. Advances in River Engineering, Vol.23, pp.341-346, 2017. (in Jpn with Eng abstract)
Non Peer-reviewed Article: 4 as co-author.
4. Watanabe, S., Kotsuki, S., Watanuki, S., Hashimoto, M., Tohge, Y., Tanaka, T., Tanoue, M., Maruya, Y., Yamada, M., Hayashi, Y. WACCA Virtual Laboratory, a Research Society of Hydrology and Water Resources Towards Post COVID-19.Journal of Japan Society of Hydrology and Water Resources, Vol.33, No.6, pp.274-278, 2020. https://doi.org/10.3178/jjshwr.33.274. (in Jpn)
3. Osakada, Y., Watanuki, S., Shimizu, K., Muto, Y., Yamada, M., Matsuura, T. Report of young association activities in 2018 and 2019 for sustainable network formation. Journal of Japan Society of Hydrology and Water Resources, Vol.33, No.3, pp.122-125, 2020. (in Jpn)
2. Watanabe, S., Kotsuki, S., Tohge, Y., Maruya, Y., Watanuki, S., Yamada, M., Hayashi, Y., Nakayoshi, N., Kinoshita, Y., Kimura, M., Tanaka, T., Hashimoto, M. Report on the 10th WACCA meeting "Workshop beyond 2030". Journal of Japan Society of Hydrology and Water Resources, Vol.33, No.1, pp.17-22, 2017. (in Jpn)
1. Watanabe, S., Tanaka, T., Maruya, Y., Tohge, Y., Kimura, M., Tanoue, M., Kinoshita, Y., Hayashi, Y., Ikeuchi, H., Yamada, M., Yoshida, N., Sasaki, O., Kamiya, H. Report of the 6th WACCA meeting “The present situation and issues of water related studies”. Journal of Japan Society of Hydrology and Water Resources, Vol.30, No.4, pp.260-265, 2017. (in Jpn)
In Preparation Article: 4 articles (1 as first author, 3 as co-author)
1. xxxx, Yamada, M., xxxx, xxxx. xxxxxxxxxxxxxxxxxxxxx. in prep.
2. xxxx, xxxx, xxxx, xxxx, xxxx, xxxx, Yamada, M., xxxx, xxxx. xxxxxxxxxxxxxxxxxxxxx. in prep.
3. xxxx, Yamada, M. xxxxxxxxxxxxxxxxxxxxx. in prep.
4. Yamada, M., xxxx, xxxx. xxxxxxxxxxxxxxxxxxxxx. in prep.
Project Research Report: 3 as first author (PI), 1 as co-author/cooperative member.
4. 京都大学 人と社会の未来研究院 人文社会科学・文理融合的研究プロジェクト 報告書(オンライン公開版)「日本全国を対象とした立地特性分析に基づく寺院の災害時避難所適性の定量評価」(筆頭・link) (to be translated)
3. Integrative investigation of widely spread disasters caused by Typhoon 19 and 21 in 2019. Grand-in-Aid in Scientific Research JSPS 19K24678, co-author of chap. 5 as cooperative researcher.
2. Flume experiment of flood water dynamics in valley-bottom plain area, and suggestion of selection criteria of inundation calculation model for various topological conditions, FY2019 River Fund, PI.
1. Quantitative analysis of spatially uneven distribution of flood risk within a basin and investigation of topological and geological factors. FY2017 River Fund. PI.
Disaster Survey Report: 5 as a survey / analysis team member.
5. Report of 2019 Tyhpoon n.19 Hagibis by JSCE Investigation Team Chubu and Hokuriku Block, in press.
4. Runoff analysis report of 2019 Typhoon n.19 Hagibis, December 2019. (link)
3. Field survey report of 2019 Naka River Flood Disaster by Typhoon n.19 Hagibis, November 2019. (link)
2. Field survey report of 2019 Chikuma River Flood Disaster by Typhoon n.19 Hagibis, October 2019. (link)
1. Survey report of 2018 July Heavy Rain Disaster, July 2018. (link)
International Conference: 6 as first author (invited 1, oral 2, poster 4) + 6 co-author (oral 6, poster 4).
19. ~20. GEWEX-OSC 2024, Submitted. (co-author 2)
13. ~ 18. AOGS2024, Submitted. (First 2, co-author 4)
12. (EGU2024, co-author, Sayama et al., EGU24-20773)
11. *Yamada, M., Sayama, T. Application of Nationwide Rainfall-Runoff-Inundation Model to Real-Time Ensemble Flood Forecasting: a Case Study of Typhoon Haishen, 2020. AOGS 18th Annual Meeting, Virtual Conference. August 2021. Oral presentation (id: HS23-A013).
10. *Sayama, T., Yamada, M., Sugawara, Y., Yamakita, A. Development of a Nationwide Rainfall-Runoff-Inundation Model in Japan for Flood Forecasting and Risk Assessment. AOGS 18th Annual Meeting, Virtual Conference. August 2021. Oral presentation (Invited) (id: HS23-A010).
9. *Sayama, T., Yamada, M., Yamazaki, D. Ensemble Flash Flood Predictions Using a High-Resolution Nationwide Distributed Rainfall-Runoff Model: Case Study of the Heavy Rain Event of July 2018 and Typhoon Hagibis in 2019. ECMWF Joint Virtual Workshop on "Connecting global to local hydrological modelling and forecasting : scientific advances and challenges", Online, June-July 2021. e-Poster Presentation (Session 2).
8. *Yamada, M.., Sayama, T., Yamazaki, D. Development of nationwide 150m high-resolution Rainfall-Runoff-Inundation model for flood forecasting: Integration of 26,000 cross-section data to improve flood predictions. ECMWF Joint Virtual Workshop on "Connecting global to local hydrological modelling and forecasting : scientific advances and challenges", Online, June-July 2021. e-Poster Presentation (Session 2).
7. (Submitted, June 2021, oral/poster not decided, co-auther) # JpGU
6. Muto, Y., Chibana, T., Yamada, M. The Effect of Total Precipitation of Various Periods to Flow Regimes in Mountainous Catchments in Japan : Considering the Geological Characteristics of Catchments. EGU General Assembly 2021, Online, April 2021. e-Poster Presentation (EGU21-REV-2021-3014).
5. Muto, Y., Watanabe, S., Yamada, M., Chibana, T. Assessing the Impact of Climate Change and Land Use Change on Water Environment in Tokoro River Basin, Japan. AGU Annual Fall Meeting, San Francisco, USA. Dec, 2019. Poster Presentation (H33M-2164).
4. [INVITED] *Yamada, M., Spatial Representativity of AMeDAS Gauge Rainfall over Radar/Raingauge-Analysed Precipitation. The 7th International Symposium on Water Environment Systems - with Perspective of Global Safety. Sendai, Japan. Nov. 2019. Oral Presentation (Sec.III-5)
3. *Yamada, M., Chibana, T., Watanabe, S. Understanding the Geospatial Structure of Flood Hazard: Point Based and Probabilistic Analysis of Yoshino River Basin, Japan. AOGS 16th Annual Meeting, Singapore. July 2019. Oral presentation (id: HS13-A029)
2. *Yamada, M., Chibana, T., Watanabe, S., Yagisawa, S. The need to much focus on the basin scale geomorphology in the flood risk analysis: case study in Yoshino-River, Japan. 27th IUGG General Assembly 2019, Montreal, Canada. July 2019. Poster presentation (id: H16-p041).
1. *Yamada, M., Watanabe, S., Chibana, T. Point-based, probabilistic analysis and visualisation of flood hazard and risk: a case study in Japan. EGU General Assembly 2018, Vienna, Austria, April 2018. Poster presentation (id: 11360).
Domestic Conference: 15 as first author, 29 as co-author. (translation/addition not finished...)
65~68.(2025水水、筆頭1共著3)
60~64.(2025 DPRI Conf)
59.~61.(投稿済、水水2024、共著3)(要追記)
54.~58.(投稿済、京大防災研R5年度研究発表講演会、筆頭1共著4)(要追記)
53.共著(水工)[佐山] (要追記)
52.共著(水工)[井上] (要追記)
51.共著(自然災害)[小林](要追記)
50.共著(水水)[PP-2-1-27] (要追記)
49.共著(水水)[PP-1-1-27] (要追記)
48.共著(水水)[PP-1-1-21] (要追記)
47.山田真史(2023)日本全国高解像度洪水予測システムの開発とリアルタイムアンサンブル予報への適用.JST未来社会創造事業シンポジウム「洪水が災害にならない社会の実現に向けて」(URL1, URL2),善光寺本坊大勧進紫雲閣,2023年3月,口頭発表.
46.(To Translate)(投稿中、DPRI Annual Meeting、共著)Yan, T., Hori, T., Yamada, M. Formative Mechanism and Hydraulic Geometry in the Rapid-Pool-Bench land System (Basical unit of Natural River). 令和4年度京都大学防災研究所研究発表講演会,京都大学,2023年2月21-22日,ポスター発表(P28)
45.(To Translate)(投稿中、DPRI Annual Meeting、共著)山北文登,佐山敬洋,山田真史,菅原快斗(2023, accepted)全国水文モデルのパラメータ地域統合化と多地点精度検証.令和4年度京都大学防災研究所研究発表講演会,京都大学,2023年2月21-22日,口頭発表(C110).(To Translate)
44.(To Translate)(投稿中、DPRI Annual Meeting、共著)○佐山敬洋,Chen JIACHAO,山田真史,山本浩大,菅原快斗,山北文登(2023, accepted)気候変動の影響を反映した全国スケールの洪水リスク評価に関する基礎的検討.令和4年度京都大学防災研究所研究発表講演会,京都大学,2023年2月21-22日,口頭発表(C305).(To Translate)
43.(To Translate)(投稿中、DPRI Annual Meeting、筆頭)○山田真史,小林遼,堀智晴(2023, accepted)寺院の水害時緊急避難場所としての活用可能性に関する全国調査・解析.令和4年度京都大学防災研究所研究発表講演会,京都大学,2023年2月21-22日,ポスター発表(P44).(To Translate)
42.(To Translate)○佐山敬洋,山田真史,菅原快斗,近者敦彦,関本大晟,山崎大(2022)広域降雨流出氾濫モデルによる浸水分布の推定 -地形補正の効果検証-.第67回水工学講演会,愛媛県松山市,2022年11月23-25日,口頭発表.(To Translate)
41.(To Translate)○藤村健介,小槻峻司,山田真史,塩尻大也,渡部哲史(2022)降雨流出氾濫モデルのアンサンブルデータ同化安定化に関する研究.第67回水工学講演会,愛媛県松山市,2022年11月23-25日,口頭発表.(To Translate)
40.(To Translate)○山田真史,佐山敬洋,山崎大,渡辺恵.日本全域分布型水文モデルへの河道測量横断面反映手法の開発と水位再現性の検証.第67回水工学講演会,愛媛県松山市,2022年11月23-25日,口頭発表.(To Translate)
39.(To Translate)○柏田仁,尾形勇紀,二瓶泰雄,山田真史,佐山敬洋.三次元河川流・氾濫流一体解析による球磨川水害における家屋被災リスクの分析.令和4年度土木学会全国大会第77回学術講演会,京都大学,2022年9月15-16日,口頭発表.(To Translate)
38.(To Translate)○山北文登,佐山敬洋,山田真史.日本全国を対象にした分布型流出モデルのパラメータ地域統合化法.令和4年度土木学会全国大会第77回学術講演会,京都大学,2022年9月15-16日,口頭発表.(To Translate)
37.(To Translate)○山田真史,佐山敬洋,Youngmin Jhe.広域高解像度流出氾濫モデルの地形補正および水門モデルの導入による氾濫再現性向上の試み.令和4年度土木学会全国大会第77回学術講演会,京都大学,2022年9月15-16日,口頭発表.(To Translate)
36.(To Translate)○渡部哲史,内海信幸,丸谷靖幸,乃田啓吾,木村匡臣,五三裕太,武藤裕花,山田真史.人口減少・気候変化が河川・ため池の土砂堆積に及ぼす影響 -愛媛県西条市丹原町を対象とした分析-.水文・水資源学会-日本水文科学会2022年度研究発表会,2022年9月4~7日,口頭発表.(To Translate)
35.(To Translate)○佐山敬洋,山北文登,山田真史,菅原快斗.日本全国を対象にした広域洪水予測モデルの多地点精度検証.水文・水資源学会ー日本水文科学会2022年度研究発表会,2022年9月4~7日,口頭発表.(To Translate)
34. Yamakita, A., Sayama, T., Yamada, M. Parameter Identification of Nation-wide RRI Model Reflecting Soil Type Distribution. Oral Presentation(C111), DPRI Annual Meeting 2022, Online, February 2022.
33. Sayama, T., Yamada, M., Sugawara, Y., Yamakita, A. Development of a Nationwide Realtime Flood Forecasting System in Japan. Oral Presentation(E210), DPRI Annual Meeting 2022, Online, February 2022.
32. Yamada, M. and Sayama, T. Estimation Method of River Cross Section Geometry for Nationwide High-Resolution RRI model. Oral Presentation(C205), DPRI Annual Meeting 2022, Online, February 2022.
31.(to translate) 〇本田洋平,渡部哲史,知花武佳,山田真史,阿部紫織,菊地純,斉藤健,伊藤俊介,藤沢直志,池内幸司.大規模気候予測情報に基づく河川流量将来変化倍率の幅に関する考察.第66回水工学講演会,オンライン開催,2021年12月8-10日,口頭発表.
30.(to translate) 〇武藤裕花,知花武佳,山田真史,渡部哲史.地質の異なる山地河川流域における月別平均流量と複数区間の総降水量の関係性.第66回水工学講演会,オンライン開催,2021年12月8-10日,口頭発表.
29.(To Translate) 〇山田真史,佐山敬洋,山崎大.日本全域RRIモデルへの河道断面観測データベースの自動導入アルゴリズムの開発.2021年度水文水資源学会研究発表会,オンライン開催,2021年9月15-18日,口頭発表(OP-3-01).(優秀発表賞)
28.(To Translate) 〇佐山敬洋,山田真史,菅原快斗,山北文登.日本全国の中小河川を対象にした分布型洪水予測モデルのパラメータ地域統合化.2021年度水文水資源学会研究発表会,オンライン開催,2021年9月15-18日,口頭発表(OP-P1-04).(To Translate)
27.(To Translate) 〇小山毅,西嶋一欽,長谷川兼一,藤本郷史,山田真史.2019年台風19号の風水害.2021年度日本建築学会大会(東海),オンライン開催,2021年9月7-10日,パネルディスカッション「激甚化する気象災害に対して建築は何が出来るのか─実大ストームシミュレータの実現に向けて」.(To Translate)
26.(To Translate) 〇小山毅,西嶋一欽,藤本郷史,山田真史.氾濫流による建物被害調査.2021年度日本建築学会大会(東海),オンライン開催,2021年9月7-10日,パネルディスカッション「陸上建物の津波荷重に関する研究の現状」.(To Translate)
25. *Kotsuki, S., Momoi, Y., Kikuchi, R., Watanabe, S., Yamada, M., Abe, S., Watanuki, A. Development of Rainfall-Runoff-Inundation Model Emulator using Deep-Learning. Poster Presentation, Research Result Reporting Conference #1, Program for Promoting Researches on the Supercomputer Fugaku - Large Ensemble Atmospheric and Environmental Prediction for Disaster Prevention and Mitigation, Online, March 2021.
24. *Sayama, T., Yamakita, A., Yamada, M., Sugawara, Y. Development of a Nation-wide Flood Forecasting System and an Integrated Parameter Calibration Method of the Model. Oral Presentation, DPRI Annual Meeting 2021, Online, February 2021.
23. *Yamada, M., Sayama, T. Development of a Nation-wide RRI Model and Its Application to Real-time Ensemble flood Forecasting for 2020 Typhoon No.10 Haishen. Oral presentation, DPRI Annual Meeting 2021, Online, February 2021. (Excellent presentation award)
22. *Yamada, M. Analysis of inundated water dynamics within valley-bottom floodplain area by comparative experiment of flume channel and numerical model, for suggestion of suitable analysis methods for typical topographical conditions. Oral presentation(Recorded movie), Annual meeting of River Fund Research Presentation, On-Demand Online Streaming (because of COVID-19), October-November 2020.
21. Ito, Y., Yamada, M., Nakamura, S. Construction and Analysis of Historical Flood Record Database for 120 years in Japan. JSCE Chubu-Region Annual Meeting 2020, Nagano, Japan, planned March 2020. (-> conference cancelled because of the COVIT-19, but proceedings was distributed and JSCE declared presentations are regarded as done.)
20. *Togashi, S., Sayama, T., Yamada, M. Estimating the Channel Cross Section of a Distributed Rainfall Runoff Inundation Model for Non observed Sections of Small and Medium Rivers. Oral presentation, DPRI Annual Meeting 2020, Kyoto, Japan, February 2020.
19. *Yamada, M., Sayama, T., Muto, Y. Geographical Structure of Probabilistic Flood Risk Characteristics and its Historical Change in Tokoro River Basin, Hokkaido, Japan. Oral presentation, DPRI Annual Meeting 2020, Kyoto, Japan, February 2020.
18. *Kageyama, Y., Yamada, M., Watanabe, S., Ikeuchi, K. A study on relationship between accumulated rainfall and flood peak discharge using large ensemble experiment data. Oral presentation, The 64th Conference on Hydraulic Engineering, Saitama, Japan, November 2019.
17. *Muto, Y., Watanabe, S., Yamada, M., Chibana, T. Consideration on social characteristics of frequently flooded areas in Japan focusing on geography and population trend. Oral presentation, The 64th Conference on Hydraulic Engineering, Saitama, Japan, November 2019.
16. *Abe, S., Watanabe, S., Yamada, M., Kotsuki, S., Watanuki, A. Impact of observed rainfall and pattern of sea surface temperature on flood analysis using massive climate prediction data. Oral presentation, The 64th Conference on Hydraulic Engineering, Saitama, Japan, November 2019.
15. *Yamada, M., Chibana, T., Watanabe, S. Analysis of Geospatial Structure of Probabilistic Flood Hazard, using the ensemble flood simulation and point-based hazard curves. Oral presentation, 2019 Annual meeting of Japan society of Hydrology and Water Resources, Narashino, Japan, September 2019.
14. *Hayashi, Y., Maruya, Y., Yamada, M., Muto, Y. Comparison of data characteristics of radar with satellite observation in heavy snowfall event, towards the interdisciplinary research on socio-natural problems in river basin scale. Oral presentation, 2019 Annual meeting of Japan society of Hydrology and Water Resources, Narashino, Japan, September 2019.
13. *Abe, S., Kotsuki, S., Yamada, M., Watanabe, S., Watanuki, S. Realizing climate change adaptations through industry-academia-government collaboration, a case for inundation risk predictions with machine-learning-based emulator. Oral presentation, 2019 Annual meeting of Japan society of Hydrology and Water Resources, Narashino, Japan, September 2019.
12. *Muto, Y., Watanabe, S., Murai, T., Chibana, T., Yamada, M. The relationship between geographical characteristics and population trends in frequently flooded areas in Japan. Poster presentation, 2019 Annual meeting of Japan society of Hydrology and Water Resources, Narashino, Japan, September 2019.
11. *Murai, T., Watanabe, S., Yamada, M., Chibana, T. The characteristics of the population reduction after floods. Poster presentation, 2019 Annual meeting of Japan society of Hydrology and Water Resources, Narashino, Japan, September 2019.
10. *Yamada, M., Chibana, T., Watanabe, S. Analysis of geospatial structure of flood hazard based on local hazard curves, and its natural and social factors. Symposium of River Engineering 2019, Tokyo, Japan. June 2019. (received Excellent Presenter Award, 1/128)
9. *Yamada, M., Chibana, T., Watanabe, S. Flood risk evaluation of class-A river systems using risk curves based on flood disaster statistics. Oral presentation, The 63rd Conference on Hydraulic Engineering, Sapporo, Japan, December 2018.
8. *Muto, Y., Watanabe, S., Chibana, T., Yamada, M. Classification of frequently inundated area in Japan, focusing on the population dynamics. Poster presentation, 2018 Annual meeting of Japan society of Hydrology and Water Resources, Tsu, Japan, September 2018.
7. *Yamada, M., Watanabe, S., Chibana, T. Flood risk evaluation of prefectoral scale based on flood disaster statistics and analysis of risk characteristics. Poster presentation, 2018 Annual meeting of Japan society of Hydrology and Water Resources, Tsu, Japan, September 2018.
6. *Yamada, M., Watanabe, S., Chibana, T. Flood risk evaluation of municipality scale, based on flood disaster statistics. Oral presentation, The 26th symposium of earth environment, Nagasaki, Japan, September 2018.
5. *Yamada, M. Quantitative analysis of spatially uneven distribution of flood risk within a basin and investigation of topological and geological factors. Poster presentation, Annual meeting of River Fund Research Presentation, Tokyo, Japan, August 2018. (received Outstanding Achievement Award)
4. *Yamazaki, K., Chiabna, T., Yamada, M., Watanabe, S. Analysis of education in rivers focusing on "Children's Waterside" and suggestion of available resources in each river characteristics. Poster presentation, Symposium of River Engineering 2018, Tokyo, Japan, June 2018.
3. *Matsushima, K., Anuar, S., Rashid, A., Yamada, M., Kishida, T. Application of environmental DNA analysis on the mammals: case study of salt-springs, Malaysia, and Kamo-river basin, Japan. Poster presentation, The 65th annual meeting of the ecological society of Japan, Sapporo, Japan, March 2018.
2. *Hiroo, T., Yamada, M., Harada, D., Chibana, T. Research of characteristics of landuse on alluvial fans by focusing on geology and characteristics of river. Poster presentation, Symposium of River Engineering 2017, Tokyo, Japan, June 2017.
1. *Yamada, M., Chiabna, T., Harada, D. Analysis of activation factors of public involvement during forming process of River Improvement Plans. Poster presentation, Symposium of River Engineering 2017, Tokyo, Japan, June 2017.
Other opportunities; occasion names only.
2022: Water Resource Seminar (WRRC)
2021: WACCA Water History Workshop
2020: iRIC online workshop #1, The 9th NCDR and DPRI Workshop.
2019: JSHWR Young Researcher Association Workshop (April, September), 2019 Land Surface Model Development Workshop, DPRI Research Workshop "Interdisciplinary Flood Risk Management with Land Use Management".
2018: WACCA10.
2017: WACCA06.
ongoing: 3 research projects (2 as PI, 2 as participant)
9. (official project name in English TBA / 日本全国を対象とした立地特性分析に基づく寺院の災害時避難所適性の定量評価 ). Amount: 3080USD. 京都大学人と未来の未来研究院 令和4年度人文社会科学・文理融合的研究プロジェクト, PI, FY2022.
8. Start-up Fund for Newly Assigned Assistant Professor. Amount: 1990USD. PI, FY2022.
7. (official project name in English TBA). Amount: TBA. MLIT Research Project Fund (国土交通省河川砂防技術研究開発公募). Participant, FY2022-2023, PI: Prof. K., Taki @ Shiga Pref. Univ.
6. (official project name in English TBA). Amount:TBA. JSPS KAKENHI-A, ID:TBA. Participant, FY2021-2024. PI: Assoc. Prof. S., Kotsuki @ Chiba Univ.
finished: 5 research project. (5 as PI)
5. Development of probabilistic risk assessment method using climate ensembles to consider both flood and drought disasters. 37000USD, Grand-in-Aid for JSPS Fellows (ID:21J01854). PI, FY2021(early termination due to appointment as assistant professor, originally to FY2023).
4. Flume experiment of flood water dynamics in valley-bottom plain area, and suggestion of selection criteria of inundation calculation model for various topological conditions. 6000USD. River Fund by the River Foundation, Japan (ID:2019-5311-010). FY2019.
3. Quantitative analysis of geo-spatial structure of flood risk and investigation of its forming mechanisms. 19000USD. Grant-in-Aid for JSPS Fellows (ID:18J11683). FY2018-2019.
2. (research-title still not open (revealed in 2020)), FY2018, 1500USD, Kyoto Univ.
1. Quantitative analysis of spatially uneven distribution of flood risk within a basin and investigation of topological and geological factors. 6000USD. River Fund by the River Foundation, Japan (ID:2017-5311-004). FY2017.
6. Excellent presentation award, 2021 Annual Joint Conference of Japan Society of Hydrology and Water Resources, and Japan Society of Hydrological Science.
5. Excellent presentation award, 2021 Annual Conference of Disaster Prevention Research Institute, Kyoto University. "Development of a Nation-wide RRI Model and Its Application to Real-time Ensemble flood Forecasting for 2020 Typhoon No.10 Haishen". (Link)
4. Encouragement award of JSCE Journal Series E (Environment), August 2019, for the article "Flood risk evaluation of municipality scale, based on flood disaster statistics. Journal of Japan Society of Civil Engineers, Series G (Environment). Vol.74, No.5, pp.I_273-I_284, 2018". (Link)
3. Excellent presenter award, 2019 Symposium for River Engineering, June 2019. "Analysis of geospatial structure of flood hazard based on local hazard curves, and its natural and social factors". (4/128) (Link)
2. Outstanding achievement award of 2018 River Fund by the River Foundation. August 2018. "Quantitative analysis of spatially uneven distribution of flood risk within a basin and investigation of topological and geological factors." (Link)
1. Tanabe-prize, Department of Civil Engineering, The University of Tokyo. March 2013. "Analysis of the influence of relationship network structure on information diffusion, considering the dynamics of multiple networks." (Link)
4. April/2021 - (now) : Research Fellowship for Young Scientists PD, JSPS.
3. April/2019 - March/2020: Research Fellowship for Young Scientists PD, JSPS. (converted from DC2)
2. April/2018 - March/2019: Research Fellowship for Young Scientists DC2, JSPS.
1. March/2013 - December/2014: French Government Scholarship (BGF: Bourse de Gouvernement Français).
January/2021 - : Editor of "Voice of Young Scientist" corner, Journal of Japan Society of Hydrology and Water Resources
April/2020 - : Member of Online Activity Working Group, Committee on Hydroscience and Hydraulic Engineering, Japan Society of Civil Engineering
April/2018 - : Member of WACCA (Water-Associated Community toward Collaborative Achievements, group of young scientists in Japan Society of Hydrology and Water Resources).
April/2016 - February/2019: Supporting staff of Civil Activity Group (Arakawa Riverside Council of Adachi-ward).
April/2015 - November/2018: Supporting staff of Campus Visit Program of high school students.
4. Ogawa, M., Sakakibara, K., Hatono, M., Yamada, M. Introduction of "Page for Younger Generation" Editorial Board. Journal of Japan Society of Hydrology and Water Resources, Vol.34, No.1, in press. (in Japanese)
3. Yamada, M. Opinion from Young Researchers : Dive into the water, to dive into the ground. Journal of Japan Society of Hydrology and Water Resources, Vol.33, No.1, pp.25-26, 2020. (in Japanese)
2. Yamada, M. Je souhaite faire bouger les choses dans l’aménagement des rivières au Japon. Brochure de la Fondation des Ponts, Vol.1, 2017. (in French)
1. Yamada, M. Lettre de France. Bulletin de l'Association Japonaise des Anciens Boursiers Scientifiques du Gouvernement Français, Vol.48, 2017. (in Japanese)
Theoretical and Applied Climatology(1), Hydrological Research Letters(3), Proceedings of IAHR(1), Geographi(1), Journal of Japan Society of Civil Engineers (1), Journal of Japan Society of Civil Engineers Series B1 (3).