Citation

Yasuda T, Imai K, Shigihara Y, Arikawa T, Baba T, Chikasada N, Eguchi Y, Kamiya M, Minami M, Miyauchi T, Nojima K, Pakoksung K, Suppasri A, Tominaga Y. J. Disaster Res. 2021; 16(7): 978-993.

Copyright

(Copyright © 2021, Fuji Technology Press)

DOI

10.20965/jdr.2021.p0978

PMID

unavailable

Abstract

The detailed understanding of tsunami hazard risk using numerical simulations requires a numerical model that can accurately predict tsunami inundation phenomena on land. In such models, the structural effects are indirectly considered using the variation of bottom roughness as a proxy for the differences in building densities. Only a few studies have conducted intermodel tests to investigate tsunami inundation in complex coastal urban cities. During the tsunami analysis hackathon held in September 2020, eight research groups met to have a detailed discussion on the current urban inundation problems. In this study, we conducted an intermodel comparison of the numerical tsunami models, using the data from physical experiments that were performed on a detailed urban model. Our objective was to investigate the necessary conditions of an accurate numerical model based that can ensure high reproducibility and practicality. It was confirmed that the accuracy of topographic data is an important parameter for tsunami inundation simulations in complex urban areas. Based on the computational cost and accuracy, we suggest that a resolution of 1 cm of topographic data is a sufficient condition for tsunami inundation simulations on 1/250 scale model.

Language: en

Keywords

numerical models; reproducibility; topography data; tsunami analysis hackathon; tsunami inundation simulation