Litcius/Paper detail

Ground Moving Target Indication for the Geosynchronous-Low Earth Orbit Bistatic Multichannel SAR System

Shuangxi Zhang, Yuxin Gao, Mengdao Xing, Rui Guo, Junli Chen, Yanyang Liu

2021IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing18 citationsDOIOpen Access PDF

Abstract

In this article, an effective clutter suppression and moving target imaging approach is proposed for the geosynchronous-low earth orbit (GEO-LEO) bistatic multichannel synthetic aperture radar (SAR) system, which is robust for the fast moving target with Doppler centroid ambiguity. For the GEO-LEO bistatic multichannel SAR system, the characteristic of baseline with azimuth invariant in Doppler Fourier transform domain is not tenable. It is difficult to implement clutter suppression by the unified baseline compensation in azimuth Doppler Fourier transform domain. Fortunately, we discover that the baseline can be approximately regarded as a constant in chirp Fourier transform domain for the GEO-LEO bistatic multichannel SAR system. Hence, the corresponding baseline compensation can be achieved in the azimuth chirp Fourier transform domain for the clutter. With an orthogonality vector of clutter, the clutter can be well suppressed and the moving target is extracted. After that, the moving target imaging approach is developed with the baseband Doppler centroid estimation and Doppler ambiguity number estimation. Finally, the theoretical investigations and the proposed approach in this article are validated by some experiments, where the experiments for clutter suppression and experiments for fast moving targets are included. Especially, an experiment with real SAR scattering scene is involved. In addition, some discussions for blind velocity targets are presented.

Topics & Concepts

Computer scienceBistatic radarGeosynchronous orbitAzimuthClutterDoppler effectSynthetic aperture radarRemote sensingFourier transformRadar imagingArtificial intelligenceRadarPhysicsOpticsSatelliteGeologyTelecommunicationsQuantum mechanicsAstronomyAdvanced SAR Imaging TechniquesRadar Systems and Signal ProcessingSynthetic Aperture Radar (SAR) Applications and Techniques