Improved SAR Amplitude Image Offset Measurements for Deriving Three-Dimensional Coseismic Displacements
KAUST DepartmentPhysical Sciences and Engineering (PSE) Division
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AbstractOffsets of synthetic aperture radar (SAR) images have played an important role in deriving complete three-dimensional (3-D) surface displacement fields in geoscientific applications. However, offset maps often suffer from multiple outliers and patch-like artifacts, because the standard offset-measurement method is a regular moving-window operation that does not consider the scattering characteristics of the ground. Here, we show that by focusing the offset measurements on predetected strong reflectors, the reliability and accuracy of SAR offsets can be significantly improved. Application to the 2011 Van (Turkey) earthquake reveals a clear deformation signal from an otherwise decorrelated interferogram, making derivation of the 3-D coseismic displacement field possible. Our proposed method can improve mapping of coseismic deformation and other ground displacements, such as glacier flow and landslide movement when strong reflectors exist.
CitationImproved SAR Amplitude Image Offset Measurements for Deriving Three-Dimensional Coseismic Displacements 2015:1 IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing