Add to ORKGThis letter presents a new motion compensation algorithm to process airborne interferometric repeat-pass synthetic aperture radar (SAR) data. It accommodates topography variations during SAR data processing, using an external digital elevation model. The proposed approach avoids phase artifacts, azimuth coregistration errors, and impulse response degradation, which usually appear due to the assumption of a constant reference height during motion compensation. It accurately modifies phase history of all targets before azimuth compression, resulting in an enhanced image quality. Airborne L-band repeat-pass interferometric data of the German Aerospace Center experimental airborne SAR (E-SAR) is used to validate the algorithm.Peer Reviewe
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
The paper is concerned about the application of motion compensation algorithms in interferometric SA...
Abstract — Airborne repeat-pass SAR data are very sensible to sub-wavelength deviations from the ref...
Efficient synthetic aperture radar (SAR) processing algorithms are unable to exactly implement the ...
Generating accurate repeat-pass interferometric airborne synthetic aperture radar (SAR) products dem...
The UAVSAR L-band synthetic aperture radar system has been designed for repeat track interferometry ...
The opertational use of airborne interferometric SAR data acquired in repeat-pass mode is restricted...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
Motion compensation (MoCom) is one of the most critical processing steps for airborne SAR focusing. ...
Abstract—This letter presents a comparison between three Fourier-based motion compensation (MoCo) al...
This letter presents a comparison between three Fourier-based motion compensation (MoCo) algorithms...
Motion compensation (MoCom) is one of the most critical processing steps for airborne SAR focusing. ...
In this work we focus on the Precise Topography- and Aperture-dependent algorithm, briefly PTA, prop...
For the motion compensation in airborne SAR processing the imaged terrain is generally assumed to be...
Abstract—This letter discusses the detection and correction of residual motion errors that appear in...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
The paper is concerned about the application of motion compensation algorithms in interferometric SA...
Abstract — Airborne repeat-pass SAR data are very sensible to sub-wavelength deviations from the ref...
Efficient synthetic aperture radar (SAR) processing algorithms are unable to exactly implement the ...
Generating accurate repeat-pass interferometric airborne synthetic aperture radar (SAR) products dem...
The UAVSAR L-band synthetic aperture radar system has been designed for repeat track interferometry ...
The opertational use of airborne interferometric SAR data acquired in repeat-pass mode is restricted...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
Motion compensation (MoCom) is one of the most critical processing steps for airborne SAR focusing. ...
Abstract—This letter presents a comparison between three Fourier-based motion compensation (MoCo) al...
This letter presents a comparison between three Fourier-based motion compensation (MoCo) algorithms...
Motion compensation (MoCom) is one of the most critical processing steps for airborne SAR focusing. ...
In this work we focus on the Precise Topography- and Aperture-dependent algorithm, briefly PTA, prop...
For the motion compensation in airborne SAR processing the imaged terrain is generally assumed to be...
Abstract—This letter discusses the detection and correction of residual motion errors that appear in...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
The paper is concerned about the application of motion compensation algorithms in interferometric SA...
Abstract — Airborne repeat-pass SAR data are very sensible to sub-wavelength deviations from the ref...