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Time-Series InSAR Dynamic Analysis With Robust Sequential Adjustment

Jing Xu, Mi Jiang, Vagner G. Ferreira, Zhou Wu

2022IEEE Geoscience and Remote Sensing Letters22 citationsDOI

Abstract

Nowadays, SAR instruments such as ESA’s Sentinel-1 constellation, ICEYE’s constellation of small and agile radar satellites, and the upcoming ALOS-4 and NASA/ISRO SAR missions provide new opportunities for near-real-time monitoring of geohazards with enhanced spatiotemporal resolution. Sequential dynamic adjustment model is regarded as an effective way to rapidly update time-series InSAR measurements. However, the accuracy of geophysical parameters of interest estimated from the conventional sequential least squares is greatly sensitive to the anomalous observations and/or anomalous prior parameter information. This letter aims to introduce the robust sequential adjustment method based on the M-estimation principle into near-real-time InSAR deformation monitoring to mitigate the effect of anomalous errors. Using both synthetic and real Sentinel-1 SAR datasets over Echigo plain in Japan, we fully evaluate the performance of the robust sequential estimation approach with respect to unwrapping errors in the SAR data stack. Measurements at 9 GPS stations located in the study area are used to validate the results. We find that the averaged RMSE of robust sequential adjustment is reduced by 15% in comparison with that of the conventional sequential least-squares method.

Topics & Concepts

Interferometric synthetic aperture radarSynthetic aperture radarComputer scienceGlobal Positioning SystemRemote sensingConstellationSeries (stratigraphy)Time seriesAlgorithmLeast-squares function approximationGeodesyData miningGeologyArtificial intelligenceMachine learningMathematicsStatisticsTelecommunicationsEstimatorPaleontologyPhysicsAstronomySynthetic Aperture Radar (SAR) Applications and TechniquesStructural Health Monitoring TechniquesAdvanced SAR Imaging Techniques
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