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Journal of Applied Remote Sensing

Study of detecting method with advanced airborne and spaceborne synthetic aperture radar data for collapsed urban buildings from the Wenchuan earthquake
Author(s): Huadong Guo; Xinwu Li; Lu Zhang
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Paper Abstract

The large 8.0 scale earthquake that occurred in Wenchuan, Sichuan province, China on May 12, 2008 caused huge damage to people's lives and property. Airborne and spaceborne remote sensing can be used accurately and effectively in almost real-time to monitor and assess earthquake disasters, providing an important scientific basis and decision-making support for government emergency command and post-disaster reconstruction. The high resolution, multi-band, multi-polarization, and full-polarization synthetic aperture radar (SAR) system and theories developed in recent years provide important data resources and the basic methodology for post-earthquake monitoring and evaluation. In this paper, the cities of Beichuan and Dujiangyan in the Wenchuan earthquake region are chosen as study sites. Using advanced high-resolution, multi-band, multi-polarization, and full-polarization SAR data, and applying urban building backscattering models and target backscattering and polarimetric target decomposition theory, the backscattering characteristics, polarimetric characteristics and texture features between collapsed and intact buildings post-earthquake are extensively compared and analyzed. Subsequently, a new SAR detection method for collapsed urban buildings is proposed from these characterizations. Preliminary results from comparisons between this method and high-resolution optical data show that the proposed method is effective and powerful in detecting collapsed urban buildings devastated by an earthquake.

Paper Details

Date Published: 1 May 2009
PDF: 18 pages
J. Appl. Remote Sens. 3(1) 031695 doi: 10.1117/1.3153902
Published in: Journal of Applied Remote Sensing Volume 3, Issue 1
Show Author Affiliations
Huadong Guo, Ctr. for Earth Observation and Digital Earth (China)
Xinwu Li, Ctr. for Earth Observation and Digital Earth (China)
Lu Zhang, Ctr. for Earth Observation and Digital Earth (China)

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