Satellite-based Emergency Mapping (SEM) mechanisms provide information for emergency response in relation to dierent types of disasters, including tsunamis, based on the analysis of satellite imagery acquired in the aftermath of an event. One of the main critical aspects of a SEM service is the timeliness in providing relevant information in the hours following the event. The availability of a relevant post-event image is crucial; therefore, satellite sensors need to be programmed as soon as possible. The integration of a tsunami alerting system, like the one oered by the Global Disaster Alert and Coordination System (GDACS), can be highly beneficial in a SEM mechanism for streamlining and accelerating the satellite programming task and for generating first damage estimates. The GDACS tsunami model is validated using tidal gauge data and a post-event field survey. Tsunami model outputs are then exploited to automatically identify areas of interest to be used for immediate satellite acquisition triggering. Three alternative operational integration approaches are proposed, described and discussed, taking as use case the tsunami that struck the central Chilean coast after the 8.3 magnitude earthquake on 16 September 2015.
Tsunami Modeling and Satellite-Based Emergency Mapping: Workflow Integration Opportunities / Ajmar, Andrea; Annunziato, Alessandro; Boccardo, Piero; Giulio Tonolo, Fabio; Wania, Annett. - In: GEOSCIENCES. - ISSN 2076-3263. - ELETTRONICO. - 9:7(2019), p. 314. [10.3390/geosciences9070314]
Tsunami Modeling and Satellite-Based Emergency Mapping: Workflow Integration Opportunities
Ajmar, Andrea;Boccardo, Piero;Giulio Tonolo, Fabio;
2019
Abstract
Satellite-based Emergency Mapping (SEM) mechanisms provide information for emergency response in relation to dierent types of disasters, including tsunamis, based on the analysis of satellite imagery acquired in the aftermath of an event. One of the main critical aspects of a SEM service is the timeliness in providing relevant information in the hours following the event. The availability of a relevant post-event image is crucial; therefore, satellite sensors need to be programmed as soon as possible. The integration of a tsunami alerting system, like the one oered by the Global Disaster Alert and Coordination System (GDACS), can be highly beneficial in a SEM mechanism for streamlining and accelerating the satellite programming task and for generating first damage estimates. The GDACS tsunami model is validated using tidal gauge data and a post-event field survey. Tsunami model outputs are then exploited to automatically identify areas of interest to be used for immediate satellite acquisition triggering. Three alternative operational integration approaches are proposed, described and discussed, taking as use case the tsunami that struck the central Chilean coast after the 8.3 magnitude earthquake on 16 September 2015.File | Dimensione | Formato | |
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geosciences-09-00314.pdf
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https://hdl.handle.net/11583/2745054
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