Add to ORKGA new technique has been developed at DLR for squint angle processing, which totally avoids interpolation and is eminently suitable for real-time processing. The basic idea is to model the two-dimensional point target response and generate a correction function for a particular squint angle. In order to obtain the ideal impulse response, the squinted response is filtered with this correction function
Abstract—Spatially variant apodization (SVA) is a nonlinear sidelobe reduction technique that improv...
The objective of this thesis is the investigation of image formation from squint mode, stripmap syn...
This thesis examines a new algorithm, to be called secondary range compression (SRC), for significan...
This report first describes an extension to the FFT-RTS Algorithm for SAR processing, which improves...
A new alternative approach has been developed for solving the range migration correction even for hi...
This paper develops an analysis of the SAR impulse response function from the interferometric point ...
The role of processing geometry and the problem of motion compensation for non zero squint in the ai...
This paper presents the conceptual design of the high resolution, real-time SAR (Synthetic Aperture ...
A time domain subaperture approach has been developed at DLR which is suitable for real-time synthet...
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...
To process squinted sliding-spotlight synthetic aperture radar (SAR) data, the azimuth preprocessin...
Abstract—In the squint mode airborne spotlight synthetic aperture radar system using the range migra...
The real-time imaging research of squint spaceborne synthetic aperture radar (SAR) with high resolut...
A time domain subaperture approach has been developed at DLR which is suitable for real-time SAR pro...
Abstract—Spatially variant apodization (SVA) is a nonlinear sidelobe reduction technique that improv...
The objective of this thesis is the investigation of image formation from squint mode, stripmap syn...
This thesis examines a new algorithm, to be called secondary range compression (SRC), for significan...
This report first describes an extension to the FFT-RTS Algorithm for SAR processing, which improves...
A new alternative approach has been developed for solving the range migration correction even for hi...
This paper develops an analysis of the SAR impulse response function from the interferometric point ...
The role of processing geometry and the problem of motion compensation for non zero squint in the ai...
This paper presents the conceptual design of the high resolution, real-time SAR (Synthetic Aperture ...
A time domain subaperture approach has been developed at DLR which is suitable for real-time synthet...
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...
To process squinted sliding-spotlight synthetic aperture radar (SAR) data, the azimuth preprocessin...
Abstract—In the squint mode airborne spotlight synthetic aperture radar system using the range migra...
The real-time imaging research of squint spaceborne synthetic aperture radar (SAR) with high resolut...
A time domain subaperture approach has been developed at DLR which is suitable for real-time SAR pro...
Abstract—Spatially variant apodization (SVA) is a nonlinear sidelobe reduction technique that improv...
The objective of this thesis is the investigation of image formation from squint mode, stripmap syn...
This thesis examines a new algorithm, to be called secondary range compression (SRC), for significan...