An integrated clutter cancellation and moving targets focusing scheme is presented for Multi-channel SAR (M-SAR) systems. The integration between the two processing steps is made feasible by performing the clutter cancellation processing in the Doppler frequency domain, and performing the moving target focusing by means of a bank of Chirp Scaling Algorithms (CSA). The integration results efficient from a computational point of view, since the azimuth FFT is common to both the clutter cancellation and the focusing processing. The clutter cancellation step allows to achieve sub-clutter moving targets visibility. The bank of CSA filters, each one matched to a different along-track target velocity component allows to produce a high-resolution image of the target itself. The effectiveness of the proposed technique is shown with reference to a sample M-SAR dataset obtained from a SAREX-92 image. © 2009 EuMA.
Integrated Clutter Cancellation and High-Resolution Imaging of Moving Targets in Multi-channel SAR / Cristallini, Diego; Colone, Fabiola; Pastina, Debora; Lombardo, Pierfrancesco. - (2009), pp. 57-60. (Intervento presentato al convegno 6th European Radar Conference tenutosi a Rome; Italy nel SEP 30-OCT 02, 2009).
Integrated Clutter Cancellation and High-Resolution Imaging of Moving Targets in Multi-channel SAR
CRISTALLINI, Diego;COLONE, Fabiola;PASTINA, Debora;LOMBARDO, Pierfrancesco
2009
Abstract
An integrated clutter cancellation and moving targets focusing scheme is presented for Multi-channel SAR (M-SAR) systems. The integration between the two processing steps is made feasible by performing the clutter cancellation processing in the Doppler frequency domain, and performing the moving target focusing by means of a bank of Chirp Scaling Algorithms (CSA). The integration results efficient from a computational point of view, since the azimuth FFT is common to both the clutter cancellation and the focusing processing. The clutter cancellation step allows to achieve sub-clutter moving targets visibility. The bank of CSA filters, each one matched to a different along-track target velocity component allows to produce a high-resolution image of the target itself. The effectiveness of the proposed technique is shown with reference to a sample M-SAR dataset obtained from a SAREX-92 image. © 2009 EuMA.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
