A priori knowledge can be exploited to increase clutter cancellation performance. This, in particular, applies in the case of Multichannel high resolution SAR systems in scenarios where also non-cooperative moving targets are present. Space Doppler Adaptive Processing has been proven as a viable solution in this case although it needs a large number of i.i.d training data. Prior knowledge can be used to relax this demanding condition. Two approaches (ITFS and Bayesian) are described and results on simulated data are shown
SAR systems are unable to obtain well focused images of non-cooperative targets in the scene. Moreov...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
A priori knowledge can be exploited to increase clutter cancellation performance. This, in particula...
.Non-cooperative moving targets appear defocused within synthetic aperture radar (SAR) images and, i...
.Non-cooperative moving targets appear defocused within synthetic aperture radar (SAR) images and, i...
Non-cooperative moving targets appear defocussed within SAR images. Moreover, in the case of ground ...
The multichannel synthetic aperture radar ground moving target indication (SAR/GMTI) technique is a ...
Non-cooperative moving targets appear defocussed within SAR images. Moreover, in the case of ground ...
Moving targets appear defocused within SAR images and their detection is a challenging especially in...
Space-time adaptive processing (STAP) of multi-channel radar data is an established and powerful met...
Space-time adaptive processing (STAP) of multi-channel radar data is an established and powerful met...
Ground Moving Target Indication (GMTI) operation relies on clutter suppression techniques for the de...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
SAR systems are unable to obtain well focused images of non-cooperative targets in the scene. Moreov...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
A priori knowledge can be exploited to increase clutter cancellation performance. This, in particula...
.Non-cooperative moving targets appear defocused within synthetic aperture radar (SAR) images and, i...
.Non-cooperative moving targets appear defocused within synthetic aperture radar (SAR) images and, i...
Non-cooperative moving targets appear defocussed within SAR images. Moreover, in the case of ground ...
The multichannel synthetic aperture radar ground moving target indication (SAR/GMTI) technique is a ...
Non-cooperative moving targets appear defocussed within SAR images. Moreover, in the case of ground ...
Moving targets appear defocused within SAR images and their detection is a challenging especially in...
Space-time adaptive processing (STAP) of multi-channel radar data is an established and powerful met...
Space-time adaptive processing (STAP) of multi-channel radar data is an established and powerful met...
Ground Moving Target Indication (GMTI) operation relies on clutter suppression techniques for the de...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
SAR systems are unable to obtain well focused images of non-cooperative targets in the scene. Moreov...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
In this paper we discuss the combined use of a priori information and adaptive signal processing tec...
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