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How phase aliasing limits systematic space-borne DInSAR monitoring and failure forecast of alpine landslides

Andrea Manconi

2021Engineering Geology50 citationsDOIOpen Access PDF

Abstract

Recent advances in satellite geodesy have improved our ability to map and monitor landslides globally with unprecedented resolution. Differential interferometry of space-borne synthetic aperture radar (DInSAR) imagery plays a major role in identifying surface displacements associated with slope instabilities and monitoring their spatiotemporal evolution. However, this technique involves several constraints that should be considered when approaching systematic and operational landslide monitoring. This work demonstrates how the effects of DInSAR temporal phase aliasing may hinder the analysis of accelerating slope deformations in alpine landslides. After defining a general framework considering the currently available satellites for DInSAR investigations, a specific accelerating slope deformation example is discussed. This study provides scientists and practitioners with important insights regarding the application of multitemporal space-borne DInSAR in systematic and/or automatic monitoring frameworks that may involve early warning applications at both local and regional scales.

Topics & Concepts

LandslideRemote sensingInterferometric synthetic aperture radarGeologyAliasingSatelliteDeformation monitoringSynthetic aperture radarGeodesyComputer scienceSeismologyDeformation (meteorology)Aerospace engineeringEngineeringComputer visionUndersamplingOceanographyLandslides and related hazardsSynthetic Aperture Radar (SAR) Applications and TechniquesCryospheric studies and observations
How phase aliasing limits systematic space-borne DInSAR monitoring and failure forecast of alpine landslides | Litcius