The Crustal Dynamics and Its Geological Explanation of the Three-Dimensional Co-Seismic Deformation Field for the 2021 Maduo MS7.4 Earthquake Based on GNSS and InSAR. [PDF]
Sensors (Basel), 2023 Li X, Chen Y, Wang X, Xiong R.
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Fusion of L- and X-band SAR images for DInSAR-based land subsidence monitoring
, 2017 Junichi Susaki +2 more
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Increase of landslide activity after a low magnitude earthquake inferred by DInSAR interferometry [PDF]
, 2021 Salvatore Martino +5 more
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Increase in landslide activity after a low-magnitude earthquake as inferred from DInSAR interferometry. [PDF]
Sci Rep, 2022 Martino S +5 more
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Advanced Multitemporal Phase Unwrapping Techniques for DInSAR Analyses
, 2012 Differential Synthetic Aperture Radar Interferometry (DInSAR) represents nowadays a wellestablished remote sensing technique to generate spatially dense surface deformation maps of large areas on Earth (Massonnet & Feigl, 1999; Burgmann et. al., 2000). To achieve this task, the phase difference (known as interferogram) between SAR data pairs related to
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Inter-decadal climate variability induces differential ice response along Pacific-facing West Antarctica. [PDF]
Nat Commun, 2023 Christie FDW +4 more
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Unraveling Spatial and Temporal Heterogeneities of Very Slow Rock-Slope Deformations with Targeted DInSAR Analyses [PDF]
, 2020 Chiara Crippa +6 more
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Archeomatica, 2015 This work was created to focus the attention on a particular aspect of the equivocation (aliasing) of the measurements made with Differential SAR interferometry (DInSAR) X-band for the presence of snow.
Massimo Morigi
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Automatic delineation of glacier grounding lines in differential interferometric synthetic-aperture radar data using deep learning. [PDF]
Sci Rep, 2021 Mohajerani Y +5 more
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