Fully Trainable and Interpretable Non-Local Sparse Models for Image Restoration
Résumé
Non-local self-similarity and sparsity principles have proven to be powerful priors for natural image
modeling. We propose a novel differentiable relaxation of joint sparsity that exploits both principles
and leads to a general framework for image restoration which is (1) trainable end to end, (2) fully
interpretable, and (3) much more compact than competing deep learning architectures. We apply this
approach to denoising, jpeg deblocking, and demosaicking, and show that, with as few as 100K parameters,
its performance on several standard benchmarks is on par or better than state-of-the-art methods that
may have an order of magnitude or more parameters.
Origine | Fichiers produits par l'(les) auteur(s) |
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