RAPID TSUNAMI INUNDATION MODELLING FORECAST USING PRE-COMPUTED EARTHQUAKE SCENARIOS AND OCEAN BOTTOM PRESSURE GAUGE (OBPG) DATA CASE STUDY: YOGJAKARTA INTERNATIONAL AIRPORT (YIA)
Currently most of the tsunami warning systems in the world including Indonesia only provide information on the estimated tsunami height, arrival time along the coast and level of tsunami threat. This information may not be sufficient for the coastal community and emergency respon agency in evacua...
Saved in:
| Main Author: | |
|---|---|
| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80790 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Currently most of the tsunami warning systems in the world including Indonesia
only provide information on the estimated tsunami height, arrival time along the
coast and level of tsunami threat. This information may not be sufficient for the
coastal community and emergency respon agency in evacuation area. For this
reason, studies on the development of tsunami inundation forecasting models in the
tsunami warning system has been conducted using various methods and
approaches. We propose a method for developing Near-Field Tsunami Inundation
Forecasting (NearTIF). We combine the inversion method with the original
NearTIF to obtain a more accurate tsunami source, utilizing Ocean Bottom
Pressure Gauge (OBPG) data. We use Mw8.5 hypothetical earthquake located in
the Java megathrust to assess the optimum time window of OBPG data for
inversion with a smoothing factor. The 15-minute time series data obtained a goodfit fault slip distribution, indicated by high correlation and low Root Mean Square
Error (RMSE), which means the bias of the prediction model is also low.
Additionally, Green’s function based on tsunami waveform predictions is the
substitute for the low-resolution forward modeling part of the original NearTIF to
acquire inundation forecasts in less computational time. The 330 pre-computed
tsunami scenario, using a non-linear numerical model, is employed for matching
and shifting between observed and pre-computed waveform in the 15 virtual
observation point along the Kulon Progo coast, the area of interest, using five
hypothetical sources varying from Mw8.5 to Mw8.9. The Aida number (K) implies
that the developed NearTIF gives accuracy in the acceptable range (0.6<K<1.4) in
less than 2 minutes after the tsunami recorded in the OBPG. In the future the
technique presented in this paper could provide near real-time tsunami inundation
forecast in Indonesia Tsunami Early Warning System (InaTEWS). |
|---|