2024
DOI: 10.3390/rs16112019
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Advancing the Limits of InSAR to Detect Crustal Displacement from Low-Magnitude Earthquakes through Deep Learning

Elena C. Reinisch,
Charles J. Abolt,
Erika M. Swanson
et al.

Abstract: Detecting surface deformation associated with low-magnitude (Mw ≤ 5) seismicity using interferometric synthetic aperture radar (InSAR) is challenging due to the subtlety of the signal and the often challenging imaging environments. However, low-magnitude earthquakes are potential precursors to larger seismic events, and thus characterizing the crustal displacement associated with them is crucial for regional seismic hazard assessment. We combine InSAR time-series techniques with a Deep Learning (DL) autoencode… Show more

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