Synthetic aperture radar interferograms are affected by ionospheric disturbances. The split-spectrum method exploits the peculiar propagation of the radar waves through the ionosphere and recovers a phase screen that can be used to correct the interferogram to improve the estimation of the geometrical phase. However the recovered screen is ambiguous and it is not possible to reach an absolute phase, which would enable absolute geolocation or absolute motion recovery. We propose splitting the range spectrum in three sub-bands to recover the unambiguous ionospheric difference with a linear problem; we interpret the solution of the linear system as the difference as a demodulation between an ambiguous and an unambiguous estimation of the ion...
In synthetic aperture radar (SAR), the separation of the height between the ground subsidence phase ...
Abstract—Interferometric synthetic aperture radar (InSAR) is a powerful technique that precisely mea...
In this paper we discuss the estimation of time and space varying phase screens through multi-squint...
Synthetic aperture radar interferograms are affected by ionospheric disturbances. The split-spectrum...
The differential ionospheric path delay is a major error source in L-band interferograms. It is supe...
Spatial and temporal variation of the free electron concentration in the ionosphere affects SAR inte...
Variations of the ionosphere can significantly disrupt synthetic aperture radar (SAR) acquisitions a...
L-band synthetic aperture radar interferograms have the potential to measure geophysical processes s...
Differential SAR interferometry (DInSAR) is a useful technique used to measure small movements and s...
The ionospheric propagation path delay is a major error source in synthetic aperture radar (SAR) int...
Repeat pass interferometric synthetic aperture radar (InSAR) observations may be significantly impac...
Split-spectrum approaches have proven successful at estimating ionospheric corrections by modeling t...
This paper presents a new method that improves the estimation of the ionospheric phase screen, with ...
Accurate topographic and deformation measurements from SAR interferometry require to correctly unwra...
peer reviewedSplit-Band Interferometry (SBInSAR) exploits the large range bandwidth of the new gener...
In synthetic aperture radar (SAR), the separation of the height between the ground subsidence phase ...
Abstract—Interferometric synthetic aperture radar (InSAR) is a powerful technique that precisely mea...
In this paper we discuss the estimation of time and space varying phase screens through multi-squint...
Synthetic aperture radar interferograms are affected by ionospheric disturbances. The split-spectrum...
The differential ionospheric path delay is a major error source in L-band interferograms. It is supe...
Spatial and temporal variation of the free electron concentration in the ionosphere affects SAR inte...
Variations of the ionosphere can significantly disrupt synthetic aperture radar (SAR) acquisitions a...
L-band synthetic aperture radar interferograms have the potential to measure geophysical processes s...
Differential SAR interferometry (DInSAR) is a useful technique used to measure small movements and s...
The ionospheric propagation path delay is a major error source in synthetic aperture radar (SAR) int...
Repeat pass interferometric synthetic aperture radar (InSAR) observations may be significantly impac...
Split-spectrum approaches have proven successful at estimating ionospheric corrections by modeling t...
This paper presents a new method that improves the estimation of the ionospheric phase screen, with ...
Accurate topographic and deformation measurements from SAR interferometry require to correctly unwra...
peer reviewedSplit-Band Interferometry (SBInSAR) exploits the large range bandwidth of the new gener...
In synthetic aperture radar (SAR), the separation of the height between the ground subsidence phase ...
Abstract—Interferometric synthetic aperture radar (InSAR) is a powerful technique that precisely mea...
In this paper we discuss the estimation of time and space varying phase screens through multi-squint...
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