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Slow-moving ground target imaging using vortex synthetic aperture radar

A vortex synthetic aperture radar (SAR) can obtain more target information when combined with orbital angular momentum (OAM). However, ground-moving targets can cause image defocusing owing to their azimuthal velocity component, and imaging position offset issues owing to their range velocity compon...

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Published in:	Physica scripta 2025-01, Vol.100 (1), p.15027
Main Authors:	Fu, Ziyu, Li, Minchao, Cui, Lizhen, Li, Chenlu, Du, Yongxing, Li, Baoshan
Format:	Article
Language:	English
Subjects:	ground-moving target indication (GMTI) orbital angular momentum SAR imaging vortex synthetic aperture radar
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creator	Fu, Ziyu Li, Minchao Cui, Lizhen Li, Chenlu Du, Yongxing Li, Baoshan
description	A vortex synthetic aperture radar (SAR) can obtain more target information when combined with orbital angular momentum (OAM). However, ground-moving targets can cause image defocusing owing to their azimuthal velocity component, and imaging position offset issues owing to their range velocity component. However, additional information regarding moving targets can be acquired for analysis using vortex SAR. This study first established an imaging model to extract moving target information from vortex echo signals. Subsequently, the target Doppler parameters were estimated, and an improved range-Doppler algorithm was applied to compensate for the Bessel and azimuthal phase terms. A new azimuth-matched filter was designed based on the Doppler parameters to achieve focused imaging of moving targets. The simulation results verified the effectiveness of the proposed algorithm and its performance was compared with that of plane-wave SAR. Vortex SAR offered better target quality parameters and azimuth resolution for the same synthetic aperture length. The proposed algorithm effectively improved the azimuthal imaging of moving targets in low-to-moderate OAM modes.
doi_str_mv	10.1088/1402-4896/ad9a19
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source	Institute of Physics
subjects	ground-moving target indication (GMTI) orbital angular momentum SAR imaging vortex synthetic aperture radar
title	Slow-moving ground target imaging using vortex synthetic aperture radar
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