Title :
Sparsity-Driven Synthetic Aperture Radar Imaging: Reconstruction, autofocusing, moving targets, and compressed sensing
Author :
Çetin, Müjdat ; StojanovicÌ, Ivana ; Önhon, N. Özben ; Varshney, Kush R. ; Samadi, Sadegh ; Karl, W.C. ; Willsky, Alan S.
Abstract :
This article presents a survey of recent research on sparsity-driven synthetic aperture radar (SAR) imaging. In particular, it reviews 1) the analysis and synthesis-based sparse signal representation formulations for SAR image formation together with the associated imaging results, 2) sparsity-based methods for wide-angle SAR imaging and anisotropy characterization, 3) sparsity-based methods for joint imaging and autofocusing from data with phase errors, 4) techniques for exploiting sparsity for SAR imaging of scenes containing moving objects, and 5) recent work on compressed sensing (CS)-based analysis and design of SAR sensing missions.
Keywords :
compressed sensing; image representation; radar imaging; synthetic aperture radar; SAR image formation; SAR sensing mission design; anisotropy characterization; compressed sensing-based analysis; joint autofocusing; joint imaging; phase errors; sparsity-based methods; sparsity-driven synthetic aperture radar imaging; synthesis-based sparse signal representation formulations; wide-angle SAR imaging; Image reconstruction; Imaging; Radar imaging; Radar polarimetry; Scattering; Synthetic aperture radar;
Journal_Title :
Signal Processing Magazine, IEEE
DOI :
10.1109/MSP.2014.2312834
