Earthquake damage visualization (EDV) technique for the rapid detection of earthquake-induced damages using SAR data

Sharma, Ram C.; Tateishi, Ryutaro; Hara, Keitarou; Nguyen, Hoan Thanh; Gharechelou, Saeid; Nguyen, Luong Viet

doi:10.3390/s17020235

SAFETYLIT WEEKLY UPDATE

We compile citations and summaries of about 400 new articles every week.

RSS Feed

HELP: Tutorials | FAQ

CONTACT US: Contact info

Search Results

Journal Article

Earthquake damage visualization (EDV) technique for the rapid detection of earthquake-induced damages using SAR data
Citation	Sharma RC, Tateishi R, Hara K, Nguyen HT, Gharechelou S, Nguyen LV. Sensors (Basel) 2017; 17(2): s17020235.
Affiliation	Space Technology Institute, Vietnam Academy of Science and Technology, 18 Hoang Quoc Viet Str., Cau Giay Dist., Hanoi 10000, Vietnam. nvluong@sti.vast.vn.
Copyright	(Copyright © 2017, MDPI: Multidisciplinary Digital Publishing Institute)
DOI	10.3390/s17020235
PMID	28134796
Abstract	The damage of buildings and manmade structures, where most of human activities occur, is the major cause of casualties of from earthquakes. In this paper, an improved technique, Earthquake Damage Visualization (EDV) is presented for the rapid detection of earthquake damage using the Synthetic Aperture Radar (SAR) data. The EDV is based on the pre-seismic and co-seismic coherence change method. The normalized difference between the pre-seismic and co-seismic coherences, and vice versa, are used to calculate the forward (from pre-seismic to co-seismic) and backward (from co-seismic to pre-seismic) change parameters, respectively. The backward change parameter is added to visualize the retrospective changes caused by factors other than the earthquake. The third change-free parameter uses the average values of the pre-seismic and co-seismic coherence maps. These three change parameters were ultimately merged into the EDV as an RGB (Red, Green, and Blue) composite imagery. The EDV could visualize the earthquake damage efficiently using Horizontal transmit and Horizontal receive (HH), and Horizontal transmit and Vertical receive (HV) polarizations data from the Advanced Land Observing Satellite-2 (ALOS-2). Its performance was evaluated in the Kathmandu Valley, which was hit severely by the 2015 Nepal Earthquake. The cross-validation results showed that the EDV is more sensitive to the damaged buildings than the existing method. The EDV could be used for building damage detection in other earthquakes as well. Language: en
Keywords	2015 Nepal Earthquake; ALOS-2; EDV; SAR; buildings; coherence; cross-validation; earthquake damage; visualization