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Applications of interferometrically derived terrain slopes: Normalization of SAR backscatter and the interferometric correlation coefficient (1994)

Rosen, Paul A. ; Small, David L. ; Werner, Charles L. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: Terrain slopes, which can be measured with Synthetic Aperture Radar (SAR) interferometry either from a height map or from the interferometric phase gradient, were used to calculate the local incidence angle and the correct pixel area. Both are required for correct thematic interpretation of SAR data. The interferometric correlation depends on the pixel area projected on a plane perpendicular to the look vector and requires correction for slope effects. Methods for normalization of the backscatter and interferometric correlation for ERS-1 SAR are presented.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: ESA, Proceedings of 2nd ERS-1 Symposium on Space at the Service of Our Environment, Volume 2; p 723-726

Format: text

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2

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Derivation of terrain slope from SAR interferometric phase gradient (1994)

Wegmueller, Urs ; Rosen, Paul A. ; Werner, Charles L.

In: CASI

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Publication Date: 2004-12-03

Description: The relationship between the gradient of the interferometric phase and the terrain slope, which, it is thought, would allow a derivation of the terrain slopes without phase unwrapping, is presented. A linear relationship between the interferometric phase gradient and the terrain slopes was found. A quantitative error analysis showed that only very small errors are introduced by these approximations for orbital Synthetic Aperture Radar (SAR) geometries. An example of a slope map for repeat pass interferometry from ERS-1 SAR data is given. A number of direct and indirect applications of the terrain slope are indicated: erosion and avalanche hazard studies, radiometric calibration of SAR data, and normalization of the interferometric correlation coefficient.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: ESA, Proceedings of 2nd ERS-1 Symposium on Space at the Service of Our Environment, Volume 2; p 711-715

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3

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On the derivation of coseismic displacement fields using differential radar interferometry: The Landers earthquake (1994)

Rosen, Paul A. ; Zebker, Howard A. ; Goldstein, Richard M. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: We present a map of the coseimic displacement field resulting from the Landers, California, June 28, 1992, earthquake derived using data acquired from an orbiting high-resolution radar system. We achieve results more accurate than previous space studies and similar in accuracy to those obtained by conventional field survey techniques. Data from the ERS 1 synthetic aperture radar instrument acquired in April, July, and August 1992 are used to generate a high-resolution, wide area map of the displacements. The data represent the motion in the direction of the radar line of sight to centimeter level precision of each 30-m resolution element in a 113 km by 90 km image. Our coseismic displacement contour map gives a lobed pattern consistent with theoretical models of the displacement field from the earthquake. Fine structure observed as displacement tiling in regions several kilometers from the fault appears to be the result of local surface fracturing. Comparison of these data with Global Positioning System and electronic distance measurement survey data yield a correlation of 0.96; thus the radar measurements are a means to extend the point measurements acquired by traditional techniques to an area map format. The technique we use is (1) more automatic, (2) more precise, and (3) better validated than previous similar applications of differential radar interferometry. Since we require only remotely sensed satellite data with no additioanl requirements for ancillary information. the technique is well suited for global seismic monitoring and analysis.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 99; B10; p. 19,617-19,635

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4

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Techniques and applications of SAR interferometry for ERS-1: Topographic mapping, change detection, and slope measurement (1993)

Werner, Charles L. ; Rosen, Paul A. ; Zebker, Howard A. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: SAR (Synthetic Aperture Radar) interferometry allows the measurement of high resolution topography of terrain from repeat orbit SAR data sets obtained by the ERS-1 AMI (Active Microwave Instrument). The system parameters which affect the accuracy of the topographic maps are errors in determination of the interferometric baseline, non parallel orbit tracks, decorrelation caused by baseline length, thermal noise, and surface change. Surface change can be observed in the interferograms either through decorrelation of the interferometric phase, or coherent phase shifts caused by locally uniform surface displacements. Phase gradient maps can be derived directly from the complex interferograms and can be transformed into surface slopes mapped onto a geometrically corrected grid.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: ESA, Proceedings of First ERS-1 Symposium on Space at the Service of Our Environment, Volume 1; p 205-210

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5

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Techniques and applications of SAR interferometry for ERS-1 (1993)

Zebker, Howard A. ; Rosen, Paul A. ; Small, David L. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Description: The ERS-1 Synthetic Aperture Radar (SAR) demonstrated that it is possible to measure high resolution topography over large areas using interferometry with repeat orbit data sets. Given that the ERS-1 orbit is known with high precision, an automatic system for generation of interferograms is presented. Least squares estimation using ground control points provides an accurate method for determining the precise interferometric baseline. The system parameters which affect the accuracy of the Digital Elevation Models (DEM's) are errors in the interferometric baseline, decorrelation caused by baseline separation, thermal noise, and surface change. An adaptive filter based on the local interferometric coherence was developed to improve phase unwrapping of the interferogram. Final accuracies of the DEM's generated for single scene pairs in Alaska (U.S.) and Bonn (Germany) are on the order of 5 to 10 m.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: CNES, From Optics to Radar, SPOT, and ERS Applications; p 483-490

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6

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Topographic slope from the SAR interferometric phase gradient (1993)

Werner, Charles L. ; Rosen, Paul A.

In: Other Sources

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Publication Date: 2019-01-25

Description: A new algorithm for the direct calculation of topographic slope maps from synthetic aperture radar (SAR) interferograms is presented. The algorithm derives slope maps without first requiring the creation of a digital elevational model (DEM) from the interferogram, thus obviating the need for high SNR in the interferogram and altitude calibration points for the scene. SAR data useful for interferometry has been collected by the Active Microwave Imager on board the ERS-1 satellite, when it was in a short period repeat orbit. Two passes of the radar sensor form a cross-track interferometric baseline. For a point target at some position (x,y,h), the interferometric phase difference phi is proportional to the difference in path lengths for the two sensor positions to the scatterer. Given the phase difference as measured in the complex interferogram and an accurate baseline geometry, the position of the scatterer, most significantly the height h, can be determined through triangulation. The interferometric phase measurement however is known only modulo 2-pi, and hence it is necessary to determine the correct multiple of 2-pi to add to the phase at each point to obtain an estimate of the actual phase with respect to an absolute datum. This phase unwrapping process is required for creating DEM's, and is difficult or impossible for regions of low SNR or SAR image layover. The new algorithm described here derives slope maps without requiring phase unwrapping.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: gress In Electromagnetics Research Symposium (PIERS); p 922

Format: text

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