Sparsity and Compressed Sensing in Radar Imaging

Sparsity and Compressed Sensing in Radar Imaging

Remote sensing with radar is typically an ill-posed linear inverse problem: a scene is to be inferred from limited measurements of scattered electric fields. Parsimonious models provide a compressed representation of the unknown scene and offer a means for regularizing the inversion task. The emergi...

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Veröffentlicht in:Proceedings of the IEEE 2010-06, Vol.98 (6), p.1006-1020
Hauptverfasser: Potter, Lee C., Ertin, Emre, Parker, Jason T., Cetin, Müjdat
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Compressed
Compressed sensing
Detection
Electric fields
Electric variables measurement
Inverse problems
Layout
Moving target indication
penalized least squares
Radar
radar ambiguity function
Radar imaging
Radar measurements
Radar remote sensing
Radar scattering
random arrays
Reconstruction
Reconstruction algorithms
Remote sensing
sparse reconstruction
synthetic aperture radar
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Zusammenfassung:Remote sensing with radar is typically an ill-posed linear inverse problem: a scene is to be inferred from limited measurements of scattered electric fields. Parsimonious models provide a compressed representation of the unknown scene and offer a means for regularizing the inversion task. The emerging field of compressed sensing combines nonlinear reconstruction algorithms and pseudorandom linear measurements to provide reconstruction guarantees for sparse solutions to linear inverse problems. This paper surveys the use of sparse reconstruction algorithms and randomized measurement strategies in radar processing. Although the two themes have a long history in radar literature, the accessible framework provided by compressed sensing illuminates the impact of joining these themes. Potential future directions are conjectured both for extension of theory motivated by practice and for modification of practice based on theoretical insights.
ISSN:0018-9219
1558-2256
DOI:10.1109/JPROC.2009.2037526