Articles | Volume 16, issue 3
https://doi.org/10.5194/nhess-16-885-2016
https://doi.org/10.5194/nhess-16-885-2016
Research article
 | 
01 Apr 2016
Research article |  | 01 Apr 2016

A quick earthquake disaster loss assessment method supported by dasymetric data for emergency response in China

Jinghai Xu, Jiwen An, and Gaozong Nie

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Cited articles

Alahmadi, M., Atkinson, P., and Martin, D.: Estimating the spatial distribution of the population of Riyadh, Saudi Arabia using remotely sensed built land cover and height data, Comput. Environ. Urb., 41, 167–176, 2013.
Alam, M. N., Tesfamariam, S., and Alam, M. S.: GIS-based seismic damage estimation: case study for the City of Kelowna, BC, Nat. Hazards Rev., 14, 66–78, 2013.
Anagnos, T., Rojahn, C., and Kiremidjian, A. S.: NCEER-ATC joint study on fragility of buildings, Techn. Rep. NCEER 95-0003, State Univ. of NY, Buffalo, 1995.
Armenakis, C: Estimating spatial disaster risk in urban environments, Geomat. Nat. Hazards Risk, 4, 289–298, 2013.
ATC: Earthquake damage evaluation data for California, ATC-13 Report, Applied Technology Council, Redwood City, California, 1985.
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Short summary
The core contribution of this study is a new earthquake disaster loss estimation method for earthquake emergency response based on dasymetric exposure data, which consists of two phases: a pre-earthquake phase and a co-earthquake phase. This method can not only improve the speed and accuracy of earthquake disaster estimation for co-earthquake response, but it also provides the spatial distribution of possible deaths and building damage.
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