R. K. Raney scite author profile

Abstmct-A space-variant interpolation is required to compensate for the migration of signal energy through range resolution cells when processing synthetic aperture radar (SAR) data, using either the classical rangelDoppler (RID) algorithm or related frequency domain techniques. In general, interpolation requires significant computation time, and leads to loss of image quality, especially in the complex image. The new chirp scaling algorithm avoids interpolation, yet performs range cell migration correction accurately. The algorithm requires only complex multiplies and Fourier transforms to implement, is inherently phase preserving, and is suitable for wide-swath, largebeamwidth, and large-squint applications. This paper describes the chirp scaling algorithm, summarizes simulation results, presents imagery processed with the algorithm, and reviews quantitative measures of its performance. Based on quantitative comparison, the chirp scaling algorithm provides image quality equal to or better than the precision rangel Doppler processor. Over the range of parameters tested, image quality results approach the theoretical limit, as defined by the system bandwidth.

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Synthetic Aperture Imaging Radar and Moving Targets

Raney

1971

IEEE Trans. Aerosp. Electron. Syst.

508

269

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Hybrid-Polarity SAR Architecture

Raney

2007

IEEE Trans. Geosci. Remote Sensing

476

262

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A space-based synthetic aperture radar (SAR) designed to provide quantitative information on a global scale implies severe requirements to maximize coverage and to sustain reliable operational calibration. These requirements are best served by the hybrid-polarity architecture, in which the radar transmits in circular polarization, and receives on two orthogonal linear polarizations, coherently, retaining their relative phase. This paper reviews those advantages, summarizes key attributes of hybrid-polarity dual-and quadrature-polarized SARs including conditions under which the signal-to-noise ratio is conserved, and describes the evolution of this architecture from first principles.

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The delay/Doppler radar altimeter

Raney

1998

IEEE Trans. Geosci. Remote Sensing

402

233

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Combined airborne laser and radar altimeter measurements over the Fram Strait in May 2002

Giles

Laxon

Wingham

et al. 2007

Remote Sensing of Environment

163

211

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R. K. Raney

Precision SAR processing using chirp scaling

Synthetic Aperture Imaging Radar and Moving Targets

Hybrid-Polarity SAR Architecture

The delay/Doppler radar altimeter

Combined airborne laser and radar altimeter measurements over the Fram Strait in May 2002

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