Xiaoli Ding scite author profile

In this paper, we propose a least-squares-based method for multitemporal synthetic aperture radar interferometry that allows one to estimate deformations without the need of phase unwrapping. The method utilizes a series of multimaster wrapped differential interferograms with short baselines and focuses on arcs at which there are no phase ambiguities. An outlier detector is used to identify and remove the arcs with phase ambiguities, and a pseudoinverse of the variance-covariance matrix is used as the weight matrix of the correlated observations. The deformation rates at coherent points are estimated with a least squares model constrained by reference points. The proposed approach is verified with a set of simulated data.Index Terms-Interferometric synthetic aperture radar (InSAR), least squares, phase ambiguity, phase unwrapping, synthetic aperture radar (SAR).

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Mapping ground surface deformation using temporarily coherent point SAR interferometry: Application to Los Angeles Basin

Zhang

Lü

Ding

et al. 2012

Remote Sensing of Environment

179

100

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Fast Statistically Homogeneous Pixel Selection for Covariance Matrix Estimation for Multitemporal InSAR

Jiang

Ding

Hanssen

et al. 2015

IEEE Trans. Geosci. Remote Sensing

178

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Xiaoli Ding

Resolving three-dimensional surface displacements from InSAR measurements: A review

Glacier mass balance in the Qinghai–Tibet Plateau and its surroundings from the mid-1970s to 2000 based on Hexagon KH-9 and SRTM DEMs

Modeling PSInSAR Time Series Without Phase Unwrapping

Mapping ground surface deformation using temporarily coherent point SAR interferometry: Application to Los Angeles Basin

Fast Statistically Homogeneous Pixel Selection for Covariance Matrix Estimation for Multitemporal InSAR

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