Add to ORKGThe paper is concerned about the application of motion compensation algorithms in interferometric SAR data processing. An analysis of the effects of the error induced by the flat earth assumption in motion compensating the data is included. Possible solutions to this problem via adjustments during and after the SAR processing and the geocoding are also discussed
The present article deals with a short description of the E-SAR system for across track interferomet...
Short temporal baseline and multiple ground deformation information can be derived from the airborne...
The UAVSAR L-band synthetic aperture radar system has been designed for repeat track interferometry ...
Chapter 1 addresses the problem of motion compensation induced height errors in digital elevation mo...
For the motion compensation in airborne SAR processing the imaged terrain is generally assumed to be...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
Abstract—This letter presents a comparison between three Fourier-based motion compensation (MoCo) al...
In this paper a two pass interferometric airborne SAR experiment, carried out in May 1993, is descri...
This letter presents a new motion compensation algorithm to process airborne interferometric repeat-...
Synthetic aperture radar (SAR) is a digital signal pro-cessing technique which enhances the azimuth ...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
In this work an evaluation will be made regarding the state of the art motion compensation algorithm...
Motion compensation is an important part of SAR processing for high resolution airborne sensors, suc...
Generating accurate repeat-pass interferometric airborne synthetic aperture radar (SAR) products dem...
The present article deals with a short description of the E-SAR system for across track interferomet...
Short temporal baseline and multiple ground deformation information can be derived from the airborne...
The UAVSAR L-band synthetic aperture radar system has been designed for repeat track interferometry ...
Chapter 1 addresses the problem of motion compensation induced height errors in digital elevation mo...
For the motion compensation in airborne SAR processing the imaged terrain is generally assumed to be...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
Abstract—This letter presents a comparison between three Fourier-based motion compensation (MoCo) al...
In this paper a two pass interferometric airborne SAR experiment, carried out in May 1993, is descri...
This letter presents a new motion compensation algorithm to process airborne interferometric repeat-...
Synthetic aperture radar (SAR) is a digital signal pro-cessing technique which enhances the azimuth ...
This letter presents a comparison between three Fourier-based motion compensation algorithms for air...
In this work an evaluation will be made regarding the state of the art motion compensation algorithm...
Motion compensation is an important part of SAR processing for high resolution airborne sensors, suc...
Generating accurate repeat-pass interferometric airborne synthetic aperture radar (SAR) products dem...
The present article deals with a short description of the E-SAR system for across track interferomet...
Short temporal baseline and multiple ground deformation information can be derived from the airborne...
The UAVSAR L-band synthetic aperture radar system has been designed for repeat track interferometry ...