Reprint
Ten Years of TerraSAR-X—Scientific Results
Edited by
April 2019
422 pages
- ISBN978-3-03897-724-7 (Paperback)
- ISBN978-3-03897-725-4 (PDF)
This book is a reprint of the Special Issue Ten Years of TerraSAR-X—Scientific Results that was published in
Engineering
Environmental & Earth Sciences
Summary
This Special Issue is a collection of papers addressing the scientific use of data acquired in the course of the TerraSAR-X mission 10 years after launch. The articles deal with the mission itself, the accuracy of the products, with differential interferometry, and with applications in the domains cryosphere, oceans, wetlands, and urban areas.
Format
- Paperback
License
© 2019 by the authors; CC BY-NC-ND license
Keywords
synthetic aperture radar; TerraSAR-X; geolocation; absolute localization accuracy; stereo sar; imaging geodesy; TerraSAR-X; internal calibration; geometric and radiometric calibration; antenna model verification; antenna pointing determination; radiometric accuracy; calibration targets; long term performance monitoring; TerraSAR-X; TanDEM-X; LEO; POD; SLR; SAR; Satellite Laser Ranging; radar ranging; satellite orbit; validation; InSAR coherence; NDVI; damage assessment; density map; tsunami; earthquake; GIS; TSX Staring spotlight; high resolution InSAR; small-scale movements; atmospheric phase; layover; DSM blending; SAR; internal waves; Andaman Sea; radar; satellite; remote sensing; SAR; TerraSAR-X; operations; ground segment; orbit; mission; global; urban footprint; processing; validation; community survey; sustainability; synthetic aperture radar; X-band; marine; estuarine; lacustrine; riverine; palustrine; time-series; SAR applications; vegetation; remote sensing data; DInSAR; landslide monitoring; PSI; super high-spatial resolution TerraSAR-X images; pixel selection; measurement pixels’ density; synthetic aperture radar; PolSAR; TerraSAR-X; surface water monitoring; flooded vegetation; classification; segmentation; InSAR; landslide; phase unwrapping; phase demodulation; TerraSAR-X; RADARSAT-2; ALOS-1; ERS; synthetic aperture radar; TerraSAR-X; habitat mapping; monitoring; remote sensing; Wadden Sea; mussel beds; intertidal bedforms; tidal gullies; remote sensing; film slicks on the sea surface; dual co-polarized microwave radar; surface wind waves; wave breaking; Snow Cover Extent (SCE); TerraSAR-X; Landsat; wet snow; small Arctic catchments; satellite time series; TerraSAR-X; synthetic aperture radar (SAR), radar mission; remote sensing; land subsidence; TerraSAR-X; SAR interferometry; coastal environments; Venice lagoon; multi-baseline; multi-pass; PS; DS; geodetic; TomoSAR; D-TomoSAR; PSI; robust estimation; covariance matrix; InSAR; SAR; review; SAR; SAR interferometry; atmospheric propagation delay; persistent scatterer interferometry; numerical weather prediction; stratified atmospheric delay; zenith path delay; slant path delay; interferometry; surface movement monitoring; ground control points; radargrammetry; automated target recognition; convolutional neural networks (CNN), deep CNN; support vector machine; SVM; synthetic aperture radar; TerraSAR-X; SAR interferometry; land subsidence; precise orbit determination; geometric and radiometric calibration; PSI