Risk Analytics for Estimating and Validating Magnitude of Earthquake Losses

Author

Astoul, A. ; Filliter, C. ; Rau-Chaplin, Andrew ; Shridhar, K. ; Varghese, Binni ; Varshney, Neeraj

Author_Institution

Risk Analytics Lab., Dalhousie Univ., Halifax, NS, Canada

fYear

2013

fDate

26-30 Aug. 2013

Firstpage

26

Lastpage

31

Abstract

The support for data ingestion and data integration from multiple data sources for rapid loss estimation and visualisation is highly desirable in post-event catastrophe modelling systems. In this paper, the design and development of a distributed system for real-time estimation and visualisation of insured losses incurred due to earthquakes is presented. The system incorporates a model for estimating losses due to earthquakes in near real-time and a geo-browser for visualisation of hazard, exposure and loss data. Preliminary validation of the system is performed using as test cases six global earthquakes and their associated industry loss data. The key result is that the system can generate reasonable order of magnitude estimates with limited data.

Keywords

data integration; data visualisation; earthquakes; geophysical catastrophes; geophysics computing; hazards; losses; risk analysis; data ingestion; data integration; data source; distributed system; exposure data visualisation; geo browser; global earthquake loss magnitude estimation; hazard visualisation; industry loss data; post event catastrophe modelling system; rapid loss data visualisation; risk analytics; Cities and towns; Data visualization; Earthquakes; Estimation; Hazards; Portfolios; Real-time systems; catastrophe losses; rapid data processing; rapid loss estimation; validation technique;

fLanguage

English

Publisher

ieee

Conference_Titel

Database and Expert Systems Applications (DEXA), 2013 24th International Workshop on

Conference_Location

Los Alamitos, CA

ISSN

1529-4188

Print_ISBN

978-0-7695-5070-1

Type

conf

DOI

10.1109/DEXA.2013.9

Filename

6621340