Add to ORKGThe role of processing geometry and the problem of motion compensation for non zero squint in the airborne synthetic aperture radar (SAR) processing was discussed. An algorithm named as Extended Extended Wave-Number (EEWN) algorithm was proposed and compared with the EWN using the simulated data. It was observed that the squint angle was constant and fixed at 5°. The three dimensional (3D) representation of the point spread function (PSF) plot obtained by the proposed EEWN algorithm and EWN was also shown
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
This paper develops an analysis of the SAR impulse response function from the interferometric point ...
This letter presents a new motion compensation algorithm to process airborne interferometric repeat-...
We extend the Direct Motion Compensation Algorithm to squinted synthetic aperture radar geometries. ...
The presence of squint in airborne SAR interferometry leads to problems for the precise geolocalizat...
This paper presents a motion compensation algorithm which is capable of dealing with large motion er...
In this work an evaluation will be made regarding the state of the art motion compensation algorithm...
This paper describes an algorithm that combines wavenumber domain processing with a procedure that e...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
A new technique has been developed at DLR for squint angle processing, which totally avoids interpol...
The present article deals with a short description of the E-SAR system for across track interferomet...
This paper proposes a new approach for high resolution airborne SAR data processing, which uses a mo...
Airborne synthetic aperture radar is a promising new application for FM-CW radars. At the IRCTR, an ...
Processing of squinted SAR spotlight data is a challenge because of the significant range migration ...
By collecting data as it moves along a straight line path and then coherently processing this data t...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
This paper develops an analysis of the SAR impulse response function from the interferometric point ...
This letter presents a new motion compensation algorithm to process airborne interferometric repeat-...
We extend the Direct Motion Compensation Algorithm to squinted synthetic aperture radar geometries. ...
The presence of squint in airborne SAR interferometry leads to problems for the precise geolocalizat...
This paper presents a motion compensation algorithm which is capable of dealing with large motion er...
In this work an evaluation will be made regarding the state of the art motion compensation algorithm...
This paper describes an algorithm that combines wavenumber domain processing with a procedure that e...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
A new technique has been developed at DLR for squint angle processing, which totally avoids interpol...
The present article deals with a short description of the E-SAR system for across track interferomet...
This paper proposes a new approach for high resolution airborne SAR data processing, which uses a mo...
Airborne synthetic aperture radar is a promising new application for FM-CW radars. At the IRCTR, an ...
Processing of squinted SAR spotlight data is a challenge because of the significant range migration ...
By collecting data as it moves along a straight line path and then coherently processing this data t...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
This paper develops an analysis of the SAR impulse response function from the interferometric point ...
This letter presents a new motion compensation algorithm to process airborne interferometric repeat-...