We extend the Direct Motion Compensation Algorithm to squinted synthetic aperture radar geometries. Numerical simulations illustrate the effectivity of the method
In the squinted synthetic aperture radar (SAR) imaging of the near-field environment, range-dependen...
This paper presents a new motion compensation (MoCo) algorithm for airborne synthetic aperture rada...
Airborne SAR focusing is affected by motion errors corrupting data acquired onboard. In order to acc...
This paper presents a motion compensation algorithm which is capable of dealing with large motion er...
The role of processing geometry and the problem of motion compensation for non zero squint in the ai...
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...
The work focuses on the analysis of influences of motion errors on near-range SAR applications and d...
Synthetic aperture radar (SAR) is a digital signal pro-cessing technique which enhances the azimuth ...
Motion compensation is an important part of SAR processing for high resolution airborne sensors, suc...
We present a SAR azimuth processing technique for alleviating motion effects. Our proposed approach ...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
By collecting data as it moves along a straight line path and then coherently processing this data t...
For accurate motion compensation (MOCO) in airborne synthetic aperture radar (SAR) imaging, a high-p...
Abstract—Image formation from squinted sliding spotlight synthetic aperture radar (SAR) is limited b...
In the squinted synthetic aperture radar (SAR) imaging of the near-field environment, range-dependen...
This paper presents a new motion compensation (MoCo) algorithm for airborne synthetic aperture rada...
Airborne SAR focusing is affected by motion errors corrupting data acquired onboard. In order to acc...
This paper presents a motion compensation algorithm which is capable of dealing with large motion er...
The role of processing geometry and the problem of motion compensation for non zero squint in the ai...
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...
The work focuses on the analysis of influences of motion errors on near-range SAR applications and d...
Synthetic aperture radar (SAR) is a digital signal pro-cessing technique which enhances the azimuth ...
Motion compensation is an important part of SAR processing for high resolution airborne sensors, suc...
We present a SAR azimuth processing technique for alleviating motion effects. Our proposed approach ...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
By collecting data as it moves along a straight line path and then coherently processing this data t...
For accurate motion compensation (MOCO) in airborne synthetic aperture radar (SAR) imaging, a high-p...
Abstract—Image formation from squinted sliding spotlight synthetic aperture radar (SAR) is limited b...
In the squinted synthetic aperture radar (SAR) imaging of the near-field environment, range-dependen...
This paper presents a new motion compensation (MoCo) algorithm for airborne synthetic aperture rada...
Airborne SAR focusing is affected by motion errors corrupting data acquired onboard. In order to acc...