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- Title
Astronomical image denoising using dictionary learning.
- Authors
Beckouche, S.; Starck, J. L.; Fadili, J.
- Abstract
Astronomical images suffer a constant presence of multiple defects that are consequences of the atmospheric conditions and of the intrinsic properties of the acquisition equipment. One of the most frequent defects in astronomical imaging is the presence of additive noise which makes a denoising step mandatory before processing data. During the last decade, a particular modeling scheme, based on sparse representations, has drawn the attention of an ever growing community of researchers. Sparse representations offer a promising framework to many image and signal processing tasks, especially denoising and restoration applications. At first, the harmonics, wavelets and similar bases, and overcomplete representations have been considered as candidate domains to seek the sparsest representation. A new generation of algorithms, based on data-driven dictionaries, evolved rapidly and compete now with the off-the-shelf fixed dictionaries. Although designing a dictionary relies on guessing the representative elementary forms and functions, the framework of dictionary learning offers the possibility of constructing the dictionary using the data themselves, which provides us with a more flexible setup to sparse modeling and allows us to build more sophisticated dictionaries. In this paper, we introduce the centered dictionary learning (CDL) method and we study its performance for astronomical image denoising. We show how CDL outperforms wavelet or classic dictionary learning denoising techniques on astronomical images, and we give a comparison of the effects of these different algorithms on the photometry of the denoised images.
- Subjects
ASTRONOMICAL image processing; ELECTRICAL harmonics; ELECTROMAGNETIC measurements; IMAGING systems in astronomy; SIGNAL denoising; ALGORITHMS
- Publication
Astronomy & Astrophysics / Astronomie et Astrophysique, 2013, Vol 556, Issue 6, p1
- ISSN
0004-6361
- Publication type
Article
- DOI
10.1051/0004-6361/201220752