NH23B-05:
Real-time tsunami inundation forecasting and damage mapping towards enhancing tsunami disaster resiliency

Tuesday, 16 December 2014: 2:40 PM
Shunichi Koshimura1, Ryota Hino2, Yusaku Ohta3, Hiroaki Kobayashi4, Akihiro Musa4,5 and Yoichi Murashima6, (1)Tohoku University, Sendai, Japan, (2)Tohoku University, International Research Institute of Disaster Science, Sendai, Japan, (3)Tohoku University, Graduate School of Science, Sendai, Japan, (4)Tohoku University, Cyberscience Center, Sendai, Japan, (5)NEC Corporation, Tokyo, Japan, (6)KOKUSAI KOGYO CO., LTD, Tokyo, Japan
Abstract:
With use of modern computing power and advanced sensor networks, a project is underway to establish a new system of real-time tsunami inundation forecasting, damage estimation and mapping to enhance society’s resilience in the aftermath of major tsunami disaster. The system consists of fusion of real-time crustal deformation monitoring/fault model estimation by Ohta et al. (2012), high-performance real-time tsunami propagation/inundation modeling with NEC’s vector supercomputer SX-ACE, damage/loss estimation models (Koshimura et al., 2013), and geo-informatics.

After a major (near field) earthquake is triggered, the first response of the system is to identify the tsunami source model by applying RAPiD Algorithm (Ohta et al., 2012) to observed RTK-GPS time series at GEONET sites in Japan. As performed in the data obtained during the 2011 Tohoku event, we assume less than 10 minutes as the acquisition time of the source model. Given the tsunami source, the system moves on to running tsunami propagation and inundation model which was optimized on the vector supercomputer SX-ACE to acquire the estimation of time series of tsunami at offshore/coastal tide gauges to determine tsunami travel and arrival time, extent of inundation zone, maximum flow depth distribution. The implemented tsunami numerical model is based on the non-linear shallow-water equations discretized by finite difference method. The merged bathymetry and topography grids are prepared with 10 m resolution to better estimate the tsunami inland penetration. Given the maximum flow depth distribution, the system performs GIS analysis to determine the numbers of exposed population and structures using census data, then estimates the numbers of potential death and damaged structures by applying tsunami fragility curve (Koshimura et al., 2013). Since the tsunami source model is determined, the model is supposed to complete the estimation within 10 minutes. The results are disseminated as mapping products to responders and stakeholders, e.g. national and regional municipalities, to be utilized for their emergency/response activities. In 2014, the system is verified through the case studies of 2011 Tohoku event and potential earthquake scenarios along Nankai Trough with regard to its capability and robustness.