Abstract
Rapid socioeconomic development in earthquake-prone areas can cause rapid changes in seismic loss risks. These changes make it difficult to ensure that risk reduction strategies are realistic, practical and effective over time. To overcome this difficulty, ongoing changes in risk should be captured timely, definitively, and accurately and then specific and well-timed adjustments of the relevant strategies should be made. However, methods for rapidly characterizing such seismic disaster risks over a large area have not been sufficiently developed. By focusing on building loss risks, this paper presents the development of an integrated method that combines remote sensing data and local knowledge to resolve this problem. This method includes two key interdependent steps. (1) To extract the heights and footprint areas of a large number of buildings accurately and quickly from single high-resolution optical remote sensing images; (2) To estimate the floor areas, identify structural types, develop damage probability matrixes, and determine economic parameters for calculating monetary losses due to seismic damage to the buildings by reviewing building-relevant local knowledge based on these two parameters (i.e., the building heights and footprint areas). This method is demonstrated in the Tangshan area of China. Based on the integrated method, the total floor area of the residential and public office buildings in central Tangshan in 2009 was 3.99% lower than the corresponding area number obtained by a conventional earthquake loss estimation project. Our field-based verification indicated that the mean relative error of the method for estimating the floor areas of the assessed buildings was 2.99%. A simulation of the impacts of the 1976 Ms 7.8 Tangshan earthquake using this method indicated that the total damaged floor area of the residential and public office buildings and the associated direct monetary loses in the study area could have been 8.00 and 28.73 times greater, respectively, than in 1976 if this earthquake had recurred in 2009, which is a strong warning to the local people regarding the increasing challenges they may face.
Highlights
Sound knowledge of seismic disaster risk is a prerequisite for ensuring the effectiveness and efficiency of seismic hazard and disaster mitigation strategies, preparedness measures, and emergency response plans
The first advantage of this integrated method is its speed and labor savings compared with conventional loss ratio curves (LRCs) or damaged probability matrixes (DPMs)-based quantitative earthquake loss estimate methods
We based this study on the central Tangshan area, which contains densely packed buildings, to demonstrate the development and application of this method
Summary
Sound knowledge of seismic disaster risk is a prerequisite for ensuring the effectiveness and efficiency of seismic hazard and disaster mitigation strategies, preparedness measures, and emergency response plans. Seismic disaster risks are constantly and significantly changing in earthquake-prone areas where rapid socioeconomic development is occurring (including many parts of China). One such area is Tangshan, China, which is located in the “Chinese Capital Region”. From 1985 to 2010, the population of this administrative region increased from 1.38 to 3.07 million, with the GDP increasing from 0.61 to 67.48 billion USD, urbanization increasing from 24.6% to 53.4%, and urban built-up areas expanding from 100 to 209 km2 [1] These increases inevitably caused significant changes in the seismic vulnerabilities and risks from year to year [2,3,4]. To prevent such strategies from becoming irrelevant, associated changes in risks must be captured quickly and accurately to perform timely, specific, and pertinent adjustments
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