In this paper, the problem of rapid earthquake dam- age detection in urban areas using multitemporal synthetic aper- ture radar data is addressed. It is shown that the combination of intensity and phase features enhances the damage pattern ex- tracted from the data temporal stack using a spatially aware classi- fier. Moreover, the use of ancillary data, easily available for urban areas, further improves the accuracy by discarding uninteresting parts of the scene and forcing homogeneous classification within city blocks to avoid “class-blurring” effects consequential to the window-based computation of relevant measures. The procedure is validated based on results for the town of Bam, Iran, and compared with ground-based survey maps.
Rapid damage detection in Bam area using multi-temporal SAR and exploiting ancillary data
GAMBA, PAOLO ETTORE;DELL'ACQUA, FABIO;TRIANNI, GIOVANNA
2007-01-01
Abstract
In this paper, the problem of rapid earthquake dam- age detection in urban areas using multitemporal synthetic aper- ture radar data is addressed. It is shown that the combination of intensity and phase features enhances the damage pattern ex- tracted from the data temporal stack using a spatially aware classi- fier. Moreover, the use of ancillary data, easily available for urban areas, further improves the accuracy by discarding uninteresting parts of the scene and forcing homogeneous classification within city blocks to avoid “class-blurring” effects consequential to the window-based computation of relevant measures. The procedure is validated based on results for the town of Bam, Iran, and compared with ground-based survey maps.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
