Research field (3):
Atmospheric and hydrospheric science
, Geography
, Hydroengineering
Research keywords (2):
Hydrology
, Hydraulic Engineering
Research theme for competitive and other funds (2):
2020 - 2023 水災害適応型社会実現のためのリスク評価と都市変容シミュレーション手法の構築
2020 - 2023 沿岸部都市河川流域における複合水災害モデルの構築と浸水リスクの多角的評価
Papers (16):
Kenji Taniguchi, Kaito Kotone, Yoshihiro Shibuo. Simulation-based assessment of inundation risk potential considering the nonstationarity of extreme flood events under climate change. Journal of Hydrology. 2022. 613. 128434-128434
Lianhui Wu, Yoshimitsu Tajima, Hiroshi Sanuki, Yoshihiro Shibuo, Hiroaki Furumai. A novel approach for determining integrated water discharge from the ground surface to trunk sewer networks for fast prediction of urban floods. Journal of Flood Risk Management. 2021. 15. 1
Toshiki YOSHIDA, Yoshihiro SHIBUO, Kenji TANIGUCHI. INUNDATION RISK EVALUATION BASED ON THE ASSUMPTION OF SIMULTANEOUS FLOODS IN MULTIPLE RIVERS. Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering). 2021. 77. 1. 12-23
YOSHIDA Toshiki, TANIGUCHI Kenji, SHIBUO Yoshihiro. Flood risk rank evaluation and possible evacuation time estimation based on flood simulation. 2019. 75. 2. I_1351-I_1356
Yoshihiro SHIBUO, Lianhui WU, Yoshimitsu TAJIMA, Dai YAMAZAKI, Hiroshi SANUKI, Hioaki FURUMAI. APPLICATION OF DATABANK-BASED DATA ASSIMILATION TO URBAN INUNDATION MODEL FOR IMPROVED ACCURACY AND SENSITIVITY ANALYSIS OF PUMPING OPERATION. Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering). 2019. 75. 2. I_199-I_204
FUTURE VARIATIONS OF PRECIPITATION AND RIVER DISCHARGE BASED ON A PARTICULAR HEAVY RAINFALL IN TSURUMI-GAWA BASIN. 2017. 61. I_181-186
ANALYSIS OF RIVER FLOOD AND URBAN INUNDATION CAUSED BY PSEUDO GLOBAL WARMING TYPHOONS AND THE EFFECT OF FLOOD CONTROL MEASURES IN THE TSURUMI RIVER BASIN. 2017. 61. I_1381-1386