Among the interferometric modes and applications of RADARSAT-2 and RADARSAT-3, ScanSAR interferometry is interesting because of its wide swath imaging capabilities. It allows efficient mapping of the earth's surface topography and its changes, and poses several interesting requirements on instrumentation, data acquisition, and processing. These are discussed for RADARSAT-2 and RADARSAT-3. The signal properties of ScanSAR data are derived, and an interferometric ScanSAR product is proposed. A digital elevation model, derived from RADARSAT-1 ScanSAR data, is presented and demonstrates the feasibility of ScanSAR interferometry for topographic reconstruction
This thesis studies the estimation of terrain elevations using interferometry syntheticaperture rada...
The NASA DC-8 AIRSAR instrument was augmented with a pair of C-band antennas displaced across track ...
This paper addresses a question often asked by industry: can radar interferometry (or InSAR or IFSAR...
ScanSAR interferometry is an efficient technique for topographic mapping or surface change monitorin...
ScanSAR interferometry is an attractive option for ef-ficient topographic mapping of large areas and...
Global-scale topographic data are of fundamental importance to many Earth science studies, and obtai...
Scanning synthetic aperture radar (ScanSAR) mode is an efficient way to map large scale geophysical ...
ISPRS Technical Commission VII Symposium on Advancing Remote Sensing Science -- 5 July 2010 through ...
Interferometric synthetic aperture radar (InSAR) makes use of high-resolution SAR images to generate...
After a description of the background, methods of production and some scientific uses of high-resolu...
ScanSAR data have non-stationary spectral properties. An efficient, phase-preserving azimuth focusin...
ScanSAR is a type of SAR imaging technology, in which SAR switches its antenna look angle cyclically...
Compared to optical sensors the use of radar for Earth observation has only just begun. The first us...
TerraSAR-X (TSX) has led to a new era for synthetic aperture radar (SAR) imaging, offering high-reso...
The generation of Digital Elevation Models (DEMs) from Synthetic Aperture Radar Interferometry (InSA...
This thesis studies the estimation of terrain elevations using interferometry syntheticaperture rada...
The NASA DC-8 AIRSAR instrument was augmented with a pair of C-band antennas displaced across track ...
This paper addresses a question often asked by industry: can radar interferometry (or InSAR or IFSAR...
ScanSAR interferometry is an efficient technique for topographic mapping or surface change monitorin...
ScanSAR interferometry is an attractive option for ef-ficient topographic mapping of large areas and...
Global-scale topographic data are of fundamental importance to many Earth science studies, and obtai...
Scanning synthetic aperture radar (ScanSAR) mode is an efficient way to map large scale geophysical ...
ISPRS Technical Commission VII Symposium on Advancing Remote Sensing Science -- 5 July 2010 through ...
Interferometric synthetic aperture radar (InSAR) makes use of high-resolution SAR images to generate...
After a description of the background, methods of production and some scientific uses of high-resolu...
ScanSAR data have non-stationary spectral properties. An efficient, phase-preserving azimuth focusin...
ScanSAR is a type of SAR imaging technology, in which SAR switches its antenna look angle cyclically...
Compared to optical sensors the use of radar for Earth observation has only just begun. The first us...
TerraSAR-X (TSX) has led to a new era for synthetic aperture radar (SAR) imaging, offering high-reso...
The generation of Digital Elevation Models (DEMs) from Synthetic Aperture Radar Interferometry (InSA...
This thesis studies the estimation of terrain elevations using interferometry syntheticaperture rada...
The NASA DC-8 AIRSAR instrument was augmented with a pair of C-band antennas displaced across track ...
This paper addresses a question often asked by industry: can radar interferometry (or InSAR or IFSAR...