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Researcher DataBase - Personal Information :
TAKAYAMA SHOKI
TAKAYAMA SHOKI
Assistant Professor
College of Agriculture - Division of Bioresource Sciences
Faculty of Agriculture - Department of Bioresource Sciences
Graduate School of Integrated Science and Technology Department of Agriculture
Interfaculty Graduate School of Mountain Watershed
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Last updated : 2024/02/22 2:05:03
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Basic information on teaching staff
| Dr. Eng. Ritsumeikan University 2021/3 |
Life Science - Forest science
Social Infrastructure (Civil Engineering, Architecture,Disaster Prevention) - Hydroengineering |
| ・Japan Society of Erosion Control Engineering |
| https://researchmap.jp/s_takayama |
Research information
[1]. Depth-averaged mixture model for development processes of debris flows over a steep unsaturated mobile bed
Landslides / - (2024) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] author
[Author] Shoki Takayama, Reo Karasawa, Fumitoshi Imaizumi [DOI]
[2]. Field monitoring of pore water pressure in fully and partly saturated debris flows at Ohya landslide scar, Japan
Earth Surface Dynamics 12/1 67-86 (2024) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] co-author
[Author] Shunsuke Oya, Fumitoshi Imaizumi, Shoki Takayama [DOI]
[3]. Initiation and runout characteristics of partially saturated debris flows in Ohya landslide scar, Japan
E3S Web of Conferences, 8th International Conference on Debris Flow Hazard Mitigation (DFHM8) 415/ - 03013 (2023) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] co-author
[Author] Fumitoshi Imaizumi, Shunsuke Oya, Shoki Takayama [DOI]
[4]. Experimental study on the effects of local sediment accumulation on a debris flow surge in a steep channel
E3S Web of Conferences, 8th International Conference on Debris Flow Hazard Mitigation (DFHM8) 415/ - 01026 (2023) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] author
[Author] Shoki Takayama, Naoya Hayashi, Fumitoshi Imaizumi [DOI]
[5]. Effects of coarse particles on downstream face erosion processes and outflow discharge during the overtopping of a landslide dam
Landslides 20/2 351-366 (2023) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] author
[Author] Shoki Takayama, Fumitoshi Imaizumi [DOI]
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[1]. 天然ダム決壊に伴う洪水流出の予測
Japan Geoscience Union Meeting 2023 (2023/5/) invited
[Presenter]高山翔揮
[2]. 渓流源頭部における土石流の発生・発達過程に関する研究
令和5年度砂防学会研究発表会 (2023/5/) other
[Presenter]高山翔揮,今泉文寿
[3]. 荒廃渓流源頭部における土石流流下特性と間隙水圧との関係
令和5年度砂防学会研究発表会 (2023/5/) other
[Presenter]高橋英成,今泉文寿,高山翔揮,蓮容龍信
[4]. 天然ダムに含まれる巨礫が越流侵食過程と洪水流出過程に与える影響
令和4年度砂防学会研究発表会 (2021/5/) other
[Presenter]高山翔揮,今泉文寿
[5]. 地球温暖化による強度低下を起因とした氷河湖決壊洪水の発生危険度評価
令和3年度砂防学会研究発表会 (2021/5/) other
[Presenter]鈴木心,堤大三,高山翔揮,里深好文
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[1]. 不均一な材料で構成される天然ダムの決壊洪水予測手法の開発 ( 2023/4 ~ 2026/3 ) Early-Career Scientists leader
[2]. 地形モニタリング手法とシミュレータの開発による土石流予測の高精度化 ( 2023/4 ~ 2027/3 ) Grant-in-Aid for Scientific Research (B) member
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[1]. 渓流源頭部における土石流の発生・発達過程を考慮した流出土砂量の予測法開発 (2023/4 - 2026/3 ) [Offer orgnization] 国土交通省 [System name] 令和5年度河川砂防技術研究開発 [Role] principal investigator [URL]
[2]. 幅広い粒度分布をもつ天然ダムの決壊予測手法の開発 (2022/4 - 2023/3 ) [Offer orgnization] 一般財団法人全国治水砂防協会 [System name] 砂防に関する調査研究助成 [Role] principal investigator
[3]. 狭窄部を通る泥流の流動過程解明と予測手法構築 (2022/4 - 2024/3 ) [Offer orgnization] 公益財団法人河川財団 [System name] 河川基金助成 [Role] principal investigator
[4]. 越流侵食,すべり崩壊,進行性崩壊を考慮する統合的な天然ダム決壊予測手法の開発 (2020/4 - 2021/3 ) [Offer orgnization] 砂防学会 [System name] 若手研究助成 [Role] principal investigator
[5]. 進行性崩壊による天然ダム決壊過程の数値シミュレーション (2018/4 - 2019/3 ) [Offer orgnization] 砂防学会 [System name] 若手研究助成 [Role] principal investigator |
[1]. Paper Encouragement Award Study on progressive failure of a landslide dam (2022/5)
[Winner] Shoki Takayama, Masamitsu Fujimoto, Yoshifumi Satofuka [Association] Shizuoka University, Ritsumeikan University
[2]. Best Ariticle Award for AJI Journal of 2020 (Silver) Acquisition of 3D Coordinates of a Landslide Dam Deformation Process by SfM Using Multiple Experimental Videos (2021/2)
[Winner] Shoki Takayama, Toshiya Nakauchi, Masamitsu Fujimoto, Yoshifumi Satofuka [Association] Asia-Japan Research Institute Ritsumeikan University
[3]. (2019/9)
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Education related information
[1]. Faculty Course 山地保全学 (2023(FY) - first semester )
[2]. General Education Course 学際農学 (2023(FY) - first semester )
[3]. Faculty Course フィールド科学演習Ⅱ (2023(FY) - full year )
[4]. Faculty Course 農業環境演習Ⅰ (2023(FY) - full year )
[5]. Faculty Course 農業環境演習Ⅱ (2023(FY) - full year )
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Contributions to society
International contributions
Others