ASSESSMENT OF UNCERTAINTY IN ESTIMATING FUTURE EXTREME STORM SURGE EVENTS IN OSAKA BAY USING LARGE ENSEMBLE TYPHOON DATA

Sota Nakajo; Kim Sooyoul; Nobuhito Mori; Webb Adrean; Tomohiro Yasuda

doi:10.9753/icce.v37.management.155

Núm. 37 (2022), Coastal Management, Environment, and Risk

Núm. 37 (2022)

ASSESSMENT OF UNCERTAINTY IN ESTIMATING FUTURE EXTREME STORM SURGE EVENTS IN OSAKA BAY USING LARGE ENSEMBLE TYPHOON DATA

Coastal Management, Environment, and Risk

Publicado 2023-09-01

Sota Nakajo
Kim Sooyoul
Nobuhito Mori
Webb Adrean
Tomohiro Yasuda

Sota Nakajo

Kim Sooyoul

Nobuhito Mori

Webb Adrean

Tomohiro Yasuda

PDF (Inglés)

Cómo citar

ASSESSMENT OF UNCERTAINTY IN ESTIMATING FUTURE EXTREME STORM SURGE EVENTS IN OSAKA BAY USING LARGE ENSEMBLE TYPHOON DATA. (2023). Coastal Engineering Proceedings, 37, management.155. https://doi.org/10.9753/icce.v37.management.155

Resumen

Risk assessment of low-frequency catastrophic events requires observation/simulation data of a large number of disaster events. When we consider the risk of storm surge, high waves, and strong wind caused by tropical cyclone, the way of stochastic tropical cyclone model approach has been conducted. The stochastic model can create a lot of synthetic tropical cyclone track data which has same statistic characteristics with historical data got in short period. In addition, climate change impact assessment requires comparison of many ensemble results (models and scenarios) in order to consider the uncertainty of future projections. However, there are few proposals for stochastic models that can predict the future climate change effects. Even if a large amount of tropical cyclone track data is produced, it is practically impossible to simulate disasters for all of them. For this reason, methods for calculating storm surge and storm waves using ANN models and regression models have been proposed, but the validity of data screening using such simplified methods needs to be further investigated. This study examines the valid ity of the newly developed regression model and its applicability to the screening of hazardous storm surge events. Future changes in storm surge risk in Osaka Bay are analyzed by combining the regression model results with detailed numerical methods.

PDF (Inglés)

Referencias

S. Nakajo et al. (2014), Global Stochastic Tropical Cyclone Model Based on Principal Component Analysis and Cluster Analysis, J. Appl. Meteo. Clim., Vol. 53(6), pp. 1547-1577.

Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.

Derechos de autor 2023 Sota Nakajo, Kim Sooyoul, Nobuhito Mori, Webb Adrean, Tomohiro Yasuda

Artículos más leídos del mismo autor/a

Satoshi Kiso, Tomohiro Yasuda, Nobuhito Mori, Andrew Kennedy, EXPERIMENTAL STUDY ON TRANSPORT CHARACTERISTICS OF COASTAL BOULDERS BY TSUNAMI AND HIGH WAVES , Coastal Engineering Proceedings: Núm. 36 (2018): Proceedings of 36th Conference on Coastal Engineering, Baltimore, Maryland, 2018
Tomohiro Yasuda, Taro Kakinuma, Takashi Tamada, Gozo Tsujimoto, FIELD SURVEY AND NUMERICAL ANALYSIS OF 2011 TOHOKU EARTHQUAKE TSUNAMI IN THE NORTHERN PART OF MIYAGI, JAPAN , Coastal Engineering Proceedings: Núm. 33 (2012): Proceedings of 33rd Conference on Coastal Engineering, Santander, Spain, 2012
Junichi Ninomiya, Nobuhito Mori, Tomohiro Yasuda, Hajime Mase, Naoto Kihara, IMPROVEMENT OF STORM SURGE SIMULATION UPON PARAMETERIZATIONS OF COUPLED AIR-SEA INTERACTIONS , Coastal Engineering Proceedings: Núm. 33 (2012): Proceedings of 33rd Conference on Coastal Engineering, Santander, Spain, 2012
Yu Chida, Nobuhito Mori, Nobuki Fukui, Tomohiro Yasuda, Takashi Yamamoto, Andrew Kennedy, Zhongduo Zhang, Andrew Copp, PHYSICAL AND NUMERICAL MODELING FOR DRIFT OBJECTS DUE TO TSUNAMI INUNDATION IN COASTAL URBAN AREA , Coastal Engineering Proceedings: Núm. 36v (2020): Proceedings of virtual Conference on Coastal Engineering, 2020
Sota Nakajo, Nobuhito Mori, Tomohiro Yasuda, Hajime Mase, BASIC EXAMINATION OF FUTURE CHANGE OF TROPICAL CYCLONE AND STORM SURGE PROPERTIES UNDER CLIMATE CHANGE , Coastal Engineering Proceedings: Núm. 33 (2012): Proceedings of 33rd Conference on Coastal Engineering, Santander, Spain, 2012
Takuya Miyashita, Nobuhito Mori, TSUNAMI INUNDATION SIMULATIONS IN URBAN TOPOGRAPHY , Coastal Engineering Proceedings: Núm. 36 (2018): Proceedings of 36th Conference on Coastal Engineering, Baltimore, Maryland, 2018
Junichi Ninomiya, Yuya Taka, Nobuhito Mori, IMPACT ASSESSMENT OF CLIMATE CHANGE ON COASTAL HAZARDS DUE TO WINTER CYCLONE AROUND JAPAN USING LARGE ENSEMBLE DATABASE , Coastal Engineering Proceedings: Núm. 36 (2018): Proceedings of 36th Conference on Coastal Engineering, Baltimore, Maryland, 2018
Hiroaki Kashima, Nobuhito Mori, EVOLUTION OF HIGH-ORDER NONLINEAR PROPERTY USING SPATIAL DEVELOPING NONLINEAR SCHRODINGER EQUATION IN INTERMEDIATE WATER , Coastal Engineering Proceedings: Núm. 36v (2020): Proceedings of virtual Conference on Coastal Engineering, 2020
Yuji Yamamura, Takaaki Shigematsu, Sota Nakajo, VELOCITY CHARACTERISTICS IN WAKE OF A NON-SPHERE BODY AND IN PORE OF POROUS MEDIA COMPOSED OF NON-SPHERES , Coastal Engineering Proceedings: Núm. 36v (2020): Proceedings of virtual Conference on Coastal Engineering, 2020
Yuki Imai, Junichi Ninomiya, Nobuhito Mori, IMPACT OF RANDOM WAVE SPECTRA ON STOKES DRIFT IN COASTAL CURRENT MODELING , Coastal Engineering Proceedings: Núm. 36 (2018): Proceedings of 36th Conference on Coastal Engineering, Baltimore, Maryland, 2018

<< < 1 2 3 4 5 6 7 > >>

ASSESSMENT OF UNCERTAINTY IN ESTIMATING FUTURE EXTREME STORM SURGE EVENTS IN OSAKA BAY USING LARGE ENSEMBLE TYPHOON DATA

Cómo citar

Descargar cita

Resumen

Referencias

Artículos más leídos del mismo autor/a