DocumentCode
2120351
Title
Split band interferometry versus absolute ranging with wideband SAR systems
Author
Bamler, R. ; Eineder, M.
Author_Institution
Remote Sensing Technol. Inst., German Aerosp. Center, Wessling, Germany
Volume
2
fYear
2004
fDate
20-24 Sept. 2004
Firstpage
980
Abstract
Estimation of differential shift of image elements between two SAR images is the basis for many applications, like DEM generation or ground motion mapping. The shift measurement can be done nonambiguously on the macro scale at the accuracy of the range resolution of the system or on the micro scale by employing interferometric methods. The latter suffers from phase cycle ambiguities and requires phase unwrapping. Modern wideband high resolution SAR systems boast resolutions as small as a few tens of a wavelength. If sufficiently many samples are used for shift estimation, the accuracy can be increased to a small fraction of a resolution cell and even in the order of a wavelength. Then accurate absolute ranging becomes precise enough to support phase unwrapping or even make it obsolete. The paper gives equations and simulation results for the achievable shift estimation accuracy for several algorithms: coherent speckle correlation, incoherent speckle correlation, split band interferometry, and correlation of point scatterers in clutter. It is shown that the performance of split band interferometry is close to the one of optimum MLE. Special Δk systems are proposed to best take advantage of the available bandwidth.
Keywords
delay-differential systems; geophysical signal processing; image registration; radar clutter; speckle; synthetic aperture radar; DEM generation; Digital Elevation Model; SAR image element differential shift estimation; Synthetic Aperture Radar; absolute ranging theory; clutter point scatterer correlation; coherent/incoherent speckle correlation; ground motion mapping; maximum likelihood estimator; optimum MLE; phase cycle ambiguity/unwrapping; split band interferometry; wideband high resolution SAR system; Bandwidth; Interferometry; Maximum likelihood estimation; Phase measurement; Radar scattering; Radar tracking; Speckle; Synthetic aperture radar; Wavelength measurement; Wideband;
fLanguage
English
Publisher
ieee
Conference_Titel
Geoscience and Remote Sensing Symposium, 2004. IGARSS '04. Proceedings. 2004 IEEE International
Print_ISBN
0-7803-8742-2
Type
conf
DOI
10.1109/IGARSS.2004.1368573
Filename
1368573
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