G. Stenström scite author profile

Exact synthetic aperture radar (SAR) inversion for a linear aperture may be obtained using fast transform techniques. Alternatively, back-projection integration in time domain can also be used. This technique has the benefit of handling a general aperture geometry. In the past, however, back-projection has seldom been used due to heavy computational burden. We show that the back-projection integral can be recursively partitioned and an effective algorithm constructed based on aperture factorization. By representing images in local polar coordinates it is shown that the number of operations is drastically reduced and can be made to approach that of fast transform algorithms. The algorithm is applied to data from the airborne ultra-wideband CARABAS SAR and shown to give a reduction in processing time of two to three orders of magnitude.

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Development and operation of an airborne VHF SAR system-lessons learned

Gustavsson

Ulander

Flood

et al. 1998

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Signal-to-clutter ratio enhancement in bistatic very high frequency (VHF)-band SAR images of truck vehicles in forested and urban terrain

Ulander

Barmettler

Flood

et al. 2010

IET Radar Sonar Navig.

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VHF/UHF bistatic and passive SAR ground imaging

Ulander

Frölind

Gustavsson

et al. 2015

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LORAMbis A bistatic VHF/UHF SAR experiment for FOPEN

Baqué

Dreuillet

Plessis

et al. 2010

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G. Stenström

Synthetic-aperture radar processing using fast factorized back-projection

Development and operation of an airborne VHF SAR system-lessons learned

Signal-to-clutter ratio enhancement in bistatic very high frequency (VHF)-band SAR images of truck vehicles in forested and urban terrain

VHF/UHF bistatic and passive SAR ground imaging

LORAMbis A bistatic VHF/UHF SAR experiment for FOPEN

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