Add to ORKGThe effects of residual uncompensated trajectory deviations on the phase accuracy of motion compensated synthetic aperture radar (SAR) images was studied. The raw data relative to a target point was simulated by introducing a quadratic uncompensated error which gave an uncompensated trajectory deviation. The linear and quadratic deviations interacted with the SAR processing and generated an additional phase artifact with respect to the simple geometric considerations
Multiband SAR is an important trend in SAR technology. Accurate registration among different band SA...
In the MOtion COmpensation (MOCO) approach to airborne repeat-pass interferometric Synthetic Apertur...
accounted for via standard two-step motion compensation (MOCO) algorithm followed by the Precise Top...
Abstract—The synthetic aperture radar (SAR) is a widely used instrument for high-resolution imaging ...
The processing of airborne synthetic aperture radar (SAR) data requires a precise compensation of th...
motion errors, frequently occur in SAR images. For airborne SAR system with very high resolution and...
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...
Abstract. A method to allow the analysis of the effects of motion and atmospheric errors in SAR imag...
Efficient synthetic aperture radar (SAR) processing algorithms are unable to exactly implement the ...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
Due to the atmospheric turbulence, the motion trajectory of airborne very high resolution (VHR) synt...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
Multiband SAR is an important trend in SAR technology. Accurate registration among different band SA...
In the MOtion COmpensation (MOCO) approach to airborne repeat-pass interferometric Synthetic Apertur...
accounted for via standard two-step motion compensation (MOCO) algorithm followed by the Precise Top...
Abstract—The synthetic aperture radar (SAR) is a widely used instrument for high-resolution imaging ...
The processing of airborne synthetic aperture radar (SAR) data requires a precise compensation of th...
motion errors, frequently occur in SAR images. For airborne SAR system with very high resolution and...
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...
Abstract. A method to allow the analysis of the effects of motion and atmospheric errors in SAR imag...
Efficient synthetic aperture radar (SAR) processing algorithms are unable to exactly implement the ...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
Airborne SAR interferometry has the potential to provide topographic data with a precision of the o...
Due to the atmospheric turbulence, the motion trajectory of airborne very high resolution (VHR) synt...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
Deviation from definitive flight path of a plane fixed a synthetic aperture radar (SAR) leads to ina...
Multiband SAR is an important trend in SAR technology. Accurate registration among different band SA...
In the MOtion COmpensation (MOCO) approach to airborne repeat-pass interferometric Synthetic Apertur...
accounted for via standard two-step motion compensation (MOCO) algorithm followed by the Precise Top...