Session Details
[16]Poster Session
Sat. Jul 19, 2025 3:30 PM - 5:00 PM JST
Sat. Jul 19, 2025 6:30 AM - 8:00 AM UTC
Sat. Jul 19, 2025 6:30 AM - 8:00 AM UTC
Multiple Hall (Ito International Research Center)(Multiple Hall (Ito International Research Center))
[16-01]Hydrological and socio-economic impact of a hydropower project in India
*Govind Joseph Chakrapani1 (1. Department of Earth Sciences, IIT Roorkee (India))
[16-02]Integrating Stakeholder Awareness into Decision-Making an Agent-Based Modeling Approach for Nature-Based Flood Mitigation in Lewes, Delaware
*Jan Philip De Leon1, Yao Hu2 (1. Student (United States of America), 2. Professor (United States of America))
[16-03]A systematic review of methods and approaches on the assessment and application of risk memory in sociohydrology
*Bremer Charles Delacruz1, Prince Dacosta Aboagye1, Natsumi Arase1, Shinichiro Nakamura1 (1. Department of Civil and Environmental Engineering, Nagoya University, Japan (Japan))
[16-04]Implementing Socio-hydrology in Volcanic River Basin Coordination Teams
*Vicky Ariyanti1 (1. Serayu Opak RBO (Indonesia))
[16-05]Salinity intrusion forecasting for Mekong River using temporal-spatial machine learning and WebGIS
*Thi Hoa Binh Le1, Dong Nguyen Dang1, Thi Phuong Mai Nguyen1 (1. Thuyloi University (Viet Nam))
[16-06]Historical Reconstruction of the 1934 Flood Inundation in the Shogawa River, Japan
*Hasune Numazawa1, Shuich Kure2, Sakuya Nakao2, Yukino Miki2, Kazuhiro Yoshimi2, Tomoko Kyuka2, Tatsuo Hayashi3, Satomi Takezawa3, Yuichi Kuroda4 (1. Graduate School of Toyama Prefectural University (Japan), 2. Toyama Prefectural University (Japan), 3. Dia Nippon Engineering Consultants Co., Ltd (Japan), 4. Kensetsu Management Hokuriku West Inc. (Japan))
[16-07]Analyzing the detectability of socio-economic drought using meteorological reanalysis dataset
*Takeru Kikuchi1, Aulia Febianda Anwar Tinumbang1, Yasuto Tachikawa1 (1. Department of Civil and Earth Resources Engineering, Kyoto University (Japan))
[16-08]A survey of contemporary attitudes towards “kasumi-tei”, traditional fragmentary levee systems in Japanese alluvial rivers: implications for flood mitigation governance in monsoon floodplain communities
*Takashi Tashiro1, Kazumi Kurata1, Masato Yamazaki2,1 (1. Disaster Mitigation Research Center, Nagoya University, Tokai National Higher Education and Research System (Japan), 2. Co-creation Laboratory, Oyo Corporation (Japan))
[16-09]Investigating Socio-Hydrological Feedbacks in Drought and Flood Risk Adaptation: A Comparative Analysis Using the Paired Events Dataset
*Marlies H Barendrecht1, Maurizio Mazzoleni2, Anne F Van Loon2, Heidi Kreibich3 (1. King's College London (UK), 2. VU Amsterdam (Netherlands), 3. GFZ Potsdam (Germany))
[16-10]Dynamic Crop Area Modeling for Improved Water Withdrawal Assessment in the Indus River Basin
*Muhammad Umer1, Naota Hanasaki1,2, Saritha Padiyedath Gopalan 1, Taikan Oki 1 (1. Graduate School of Engineering, The University of Tokyo (Japan), 2. Center for Climate Change Adaptation, National Institute for Environmental Studies (Japan))
[16-11]Transferable data-driven approaches to sociohydrological
flood risk modelling
*Philipp Arthur Bautz1, Nivedita Sairam 1, Andrea Cominola2,4, Heidi Kreibich1, Dominik Paprotny3 (1. GFZ Helmholtz Centre for Geosciences (Germany), 2. Technische Univ. Berlin (Germany), 3. Potsdam Institute for Climate Impact Research (PIK) (Germany), 4. Einstein Center Digital Future (Germany))
[16-12]Assessing the Role of Nature-Based Solutions in Reducing Urban Runoff: A Multi-Scenario Approach
*Yu En Ng1, Balqis Mohamed Rehan1 (1. Universiti Putra Malaysia (Malaysia))
[16-13]Urbanization, Land Cover Change, and Flood Resilience in Bangkok's Expanding Periphery: Insights from the Omnon Canal
*Pin Udomcharoenchaikit1, Takahiro Tanaka1 (1. Hiroshima University (Japan))
[16-14]On the baselines for measuring the potential of river flood disasters in Japan
*Hideyuki Kamimera1, Yoko Matsuda2, Yu Matsubara3, Katsuya Yamori2 (1. National Research Institute for Earth Science and Disaster Resilience (Japan), 2. Disaster Prevention Research Institute, Kyoto University (Japan), 3. Data Science and AI Innovation Research Promotion Center, Shiga University (Japan))
[16-15]From Overexploitation to Regulation: Clustering Long-Term Drought Flow Patterns in Major Rivers in Japan
*Yuki Hoshino1, Takeo Yoshida2, Asari Takada2, Seiya Aihara2, Atsushi Maruyama3, Shinji Fukuda4 (1. Graduate School of Agriculture, Tokyo University of Agriculture and Technology (Japan), 2. Institute for Rural Engineering, National Agriculture and Food Research Organization (Japan), 3. Institute for Agro-Environmental Sciences, National Agriculture and Food Research Organization (Japan), 4. Institute of Agriculture, Tokyo University of Agriculture and Technology (Japan))
[16-16]Application of model predictive control to dam operation for the optimization of water balance between flood control and water utilization
*Eisuke Watanabe1, Takehiko Ito2, Tomohito J. Yamada2 (1. Graduate School of Engineering, Hokkaido Univ. (Japan), 2. Faculty of Engineering, Hokkaido Univ. (Japan))
[16-17]Integrating Artificial Intelligence and Sociohydrology for Enhanced Urban Flood Resilience: A Transdisciplinary Approach
*Shafayet Rahman1 (1. Chittagong University of Engineering and Technology (CUET) (Bangladesh))
[16-18]Quantitative Evaluation of Multiple Urban Flood Mitigation Measures in Toyama City
*Shinya Mabuchi1, Kazuhiro Yoshimi1 (1. Toyama Prefectural University (Japan))
[16-19]Environmental Flow Assessment of Gumti River
Md Mahtab Ishmum1, *Safwan Hasan Salvi1, Mumtahina Alam1, Ashfaqur Rahman 1, Shafayet Rahman1, Mohtasim Fuad1 (1. Chittagong University of Engineering and Technology (CUET) (Bangladesh))
[16-20]Investigating water resource availability on very small islands in Indonesia under climate change
*Amanatullah Savitri1, Kazuyoshi Souma1, Hiroshi Ishidaira1, Jun Magome1 (1. University of Yamanashi (Japan))
[16-21]Assessing the Impact of Climate Change on Flood Zoning Accuracy and Patterns
*Muhammad Shiraz Riaz1, Taikan Oki1, Masashi Minamide1 (1. The University of Tokyo (Japan))
[16-22]Rapid Flood Damage Assessment and Future Risk Estimation in the Philippines Using Google Earth Engine and Land Change Modeler
*Yuta Kurihara1 (1. Student (Japan))
[16-23]Advancement of Disaster Prevention Actions Through Scientific Risk Information
*Tomohito J Yamada1 (1. Hokkaido University (Japan))
[16-24]Addressing vulnerability and social exclusion: insights from Brazil's climate disaster context
*Augusto Cesar Oyama1, Takahiro Sayama1, Florence Lahournat1 (1. Kyoto University, Disaster Prevention Research Institute (Japan))
[16-25]What Stagnated Water Resource Development Support in Eastern Himalayas? ~Reexamining Japan Global Infrastructure Fund's Activities~
*Kazuki Matsuo1, Shun Kanemaru1 (1. VisitingFellow, :Global Infrastructure Fund Research Foundation Japan (Japan))
[16-26]Changes in the maintenance and management of traditional small-scale water facilities by local residents in Gujo-Hachiman, Japan
*Tsuneaki Fukui1, Kenta Kawakami1 (1. Hosei University (Japan))
[16-27]Acoustic-Based Rainfall Observation System for Citizen Science: Leveraging Low-Cost IoT Sensors
*Seunghyun Hwang1, Seoyeong Ku1, Jinwook Lee2, Jongyun Byun1, Jeemi Sung1, Minseo Cho1, Changhyun Jun1 (1. Korea Univ. (Korea), 2. Univ. of Hawaii at Manoa (United States of America))
[16-28]Building the Emic Conception of High Tides and Floods to Reduce of Disasters Psychological Burden
Muhammad Alie Humaedi1, Apip Apip Apip1, Eva Eva Yamamoto2, Kodai Kodai Yamamoto2, *Sayama Sayama Sayama2 (1. National Research and Innovation Agency BRIN (Indonesia), 2. DPRI Kyoto University (Japan))
[16-29]Integrating Scientific Knowledge and Citizen Participation: Creating a Platform for Watershed Sustainability
*Kohei Suzuki1,2, Sayo Demura1, Masashi Kiguchi2, Taichi Tebakari3, Keigo Noda2, Koshi Yoshida2, Kazuhiro Yoshimi4, Taikan Oki2 (1. Tagayasu Inc. (Japan), 2. Tokyo university (Japan), 3. Chuo university (Japan), 4. Toyama Prefectural University (Japan))
[16-30]Socio-Hydrological Analysis of Frequent Flood-Prone Areas in Chiang Mai: Flood Risk Perception and Adaptation
*Zhaolong GU1, Daisuke Komori2, Phakdimek SARTSIN3 (1. Graduate School of Environmental Studies, Tohoku University (Japan), 2. Green Goals Initiative, Tohoku University (Japan), 3. School of Geotechnology, Institute of Engineering, Suranaree University of Technology (Thailand))
[16-31]Hierarchical Sociohydrological Modelling of Flood-Induced Migration: A Case Study from Manila, Philippines
*Natsumi Arase1, Nakamura Shinichiro1 (1. Department of Civil and Environmental Engineering, Nagoya University (Japan))
[16-32]Investigating Urban Drainage Capacities and Inland Flood Risks at the Global Scale
*Yudai Aikyo1, Yukiko Hirabayashi1 (1. Shibaura Institute of Technology (Japan))
[16-33]Stakeholders’ Dialogues to Delve into the Comprehension, Assessment and Governance of the WEFE Nexus under Climate Extremes. Learning from Lake Como, Italy
*Sandra Ricart1, Andrea Castelletti1 (1. Department of Electronics, Information and Bioengineering. Politecnico di Milano (Italy))
[16-34]Visualization of water resource information for restructuring water supply services in rural areas of Hokkaido: Predicting drought flow in small rivers using environmental factors
*Akiko Nagasaka1, Nobuo Ishiyama2, Yohei Arata1, Yu Nagasaka1, Ken Ushijima1 (1. Hokkaido Research Organization (Japan), 2. Hokkaido Univ. (Japan))
[16-35]River basin management policy and relational values of nature: understanding how people value nature and nature’s contributions relationally
*Tomomi SAITO1 (1. University of Tokyo (Japan))
[16-36]Regionalising Hydrological Insights for Sustainable Water Management in Latvia’s Small Rivers Using the METQ Model
Anda Bakute1, Jovita Pilecka-Ulcugaceva1, *Inga Grinfelde1 (1. Faculty of Forest and Environmental Sciences, Latvia University of Life Sciences and Technologies (Latvia))
[16-37]Estimation and Validation of Water Quality Parameters in Reservoirs Using Sentinel-1 SAR
*Yangwan Kim1, Kijin Park1, Kiyoung Kim2, Jongmin Park1 (1. KNUT (Korea), 2. KIHS (Korea))
[16-38]Integrating Levee Information Extracted from LiDAR Data into Large-Scale Flood Models: Applications to Various River Basins
*Kazuma Shiraishi1, Do Ngoc Khanh1, Orie Sasaki2, Yukiko Hirabayashi1 (1. Shibaura Institute of Technology (Japan), 2. Institute of Science Tokyo (Japan))
[16-39]The Rise of Desalination Technology and the Decline of Turkey’s Peace Water Pipeline Project
*Akiko Sakamoto1, Mikiyasu Nakayama1 (1. Global Infrastructure Fund Research Foundation Japan (Japan))
[16-40]Landscape ecology study to support multi-storey agricultural transformation in Yot subdistrict, Nan, Thailand
*Onkamon Nilanon1,2, Attana Vasuwattana2, Nakrob Saithep2 (1. Department of Landscape Architecture, King Mongkut's Institution of Technology Ladkrabang (Thailand), 2. Refield Lab (Thailand))
[16-41]Unraveling Spatial-Temporal Rainfall Patterns Triggering Urban Floods in Mamminasata, Indonesia
*Munajat Nursaputra1,2 (1. Doctoral Program of Earth Science, Faculty of Earth Science and Technology, Institut Teknologi Bandung (Indonesia), 2. Laboratory of Forestry Planning and Information System, Faculty of Forestry, Hasanuddin University (Indonesia))
[16-42]Success factors of the management of irrigation systems-Comparing the two cases of Water Users Associations of the two irrigation systems in Bohol, Philippines
*Ieko Kakuta1 (1. Faculty of International Relations, Asia University (Japan))
[16-43]Urbanization and Climate Change Impacts on Flood Risk: A GIS-Based Fuzzy-AHP Assessment in Nusantara River Basin in Indonesia and Oyabe River Basin in Japan
*I Gede Putu Indra Aditya1, Akbar Rizaldi1, Shuichi Kure1 (1. Toyama Prefectural university (Japan))
[16-44]A Research on Disaster Risk Increasing Development Trends in Major Urban Areas of Japan
*Kozo Nagami1 (1. Tohoku University (Japan))
[16-45]Application of AI Reinforcement Learning to Low Water Management for the Upper Tone River Dams
*Takuhiro Kanayama1, Shin Miura1, Kazushi Yoshida1, Akihiko Kasai2 (1. CTI Engineering Co., Ltd. (Japan), 2. Ministry of Land, Infrastructure and Transport (Japan))
[16-46]Assessing Sea Level Rise-Driven Amplification of Fluvial Flooding in Coastal Megacities
*Prakat Modi1, Yukiko Hirabayashi2, Dai Yamazaki3 (1. SIT Research Laboratories, Shibaura Institute of Technology (Japan), 2. Department of Civil Engineering, Shibaura Institute of Technology (Japan), 3. Institute of Industrial Science, The University of Tokyo (Japan))
[16-47]Exploring land cover change after prolonged droughts at the global level
*Luigia Brandimarte1, Felicia Engman1, Ester Kortekaas1, Maurizio Mazzoleni2,3 (1. Royal Institute of Technology KTH (Sweden), 2. Institute for Environmental Studies, Vrije Universiteit Amsterdam, Amsterdam, The Netherlands (Netherlands), 3. Karolinska Institutet, Department of Global Public Health, Stockholm, Sweden (Sweden))
[16-48]Agricultural water management systems for resilience building: a comparative study of Japan, Taiwan, and the Netherlands
*Yukinaga Nishihara1, Yuki Sano2, Hsin-Hua Chiang3 (1. Gifu University (Japan), 2. The University of Tokyo (Japan), 3. National Pingtung University (Taiwan))
[16-49]The Characteristics of Distribution on Frequent Rainfall Inundation Areas in Urban Cities of Japan
*Daisuke Komori1, Kota Nakaguchi2 (1. Tohoku University (Japan), 2. Public-Use Systems Department 1 (Japan))
[16-50]A Study of the Kiso River Improvement Project against the Background of 19th Century Dutch Hydraulic Engineering: Attitudes towards Polders
*Yoshifumi Demura Demura1 (1. Gifu University (Japan))
[16-51]The role of insurance programs in flood risk management and mitigation
*Giorgio Roth1 (1. Università di Genova (Italy))
[16-52]Quantitative assessment of flood risk tolerance in Japanese pre-modern village.
*Katsuya HIRANO1, Tomoya AMAGAI2 (1. Tohoku University (Japan), 2. Dia Nippon Engineering Consultants Co., Ltd. (Japan))
[16-53]Classification of Water Source Area Revitalization Measures According to the Reservoir Shape of Dams in Japan
*Yusaku Okada1, Kyle Kobayashi2, Takaaki Sakamoto3,4 (1. Kanazawa University College of Human and Social Sciences School of Regional Development Studies (Japan), 2. Kyusyu University Graduate School of Integrated Sciences for Global Society (Japan), 3. Kanazawa University Institute of Human and Social Sciences Faculty of Regional Development Studies (Japan), 4. Kanazawa University Frontier Institute of Tourism Sciences (Japan))
[16-54]Impact of Government Policies During the Covid-19 Period on Population Migration and Water Supply Demand Changes in Indonesia
*Yuangga Rizky Illahi1, Jun Magome2, Hiroshi Ishidaira2, Kazuyoshi Souma2 (1. Integrated Graduate School of Medicine, Engineering, and Agricultural Sciences, University of Yamanashi, Kofu, Yamanashi (Japan), 2. Interdisciplinary Centre for River Basin Environment, University of Yamanashi, Kofu, Yamanashi (Japan))
[16-55]An archaeo-geographical approach for understanding cultural hydrology in Musandam Governorate, Sultanate of Oman
*Yasuhisa Kondo1,2, Kantaro Tanabe3, Taichi Kuronuma4 (1. Research Institute for Humanity and Nature (Japan), 2. The Graduate University for Advanced Studies, SOKENDAI (Japan), 3. The University of Tokyo (Japan), 4. Tokyo University of Foreign Studies (Japan))
[16-56]Does considering glacier melt change future flood risk peak timing? Case study in Indus River basin.
*Kinza Khan1, Dai Yamazaki2 (1. University of Tokyo (Japan), 2. Institute of Industrial Science (Japan))
[16-57]Analysis of Similar Weather Patterns Focusing on Synoptic-Scale Meteorological Disturbances: A Case Study of the Heavy Rainfall Event in Central Japan in September 2024
*Maki Miyamoto1, Yuta Ohya3, Tsuyoshi Hoshino2, Yiwen Mao1, Keita Shimizu1, Tomohito J. Yamada1 (1. Faculty of Engineering, Hokkaido University (Japan), 2. Civil Engineering Research Institute for Cold Region (Japan), 3. Hokkaido Research Organization (Japan))
[16-58]Exploring Sociohydrological Dynamics of Agrivoltaics
*Maria Elena Orduna Alegria1 (1. Oregon State University (United States of America))
[16-59]Design Practices Based on Perspectives of Historical and Complex Human-Water Systems in Low-Lying Regions in Japan: Approaches from Community-Based Water Infrastructure and Landscape Experience
Yoh Sasaki1, *Hironao Kozawa2 (1. Waseda University (Japan), 2. National Institute of Technology, Nagaoka College (Japan))