We propose a scaled adaptive version of the Fast Iterative Soft-Thresholding Algorithm, named S-FISTA, for the efficient solution of convex optimization problems with sparsity-enforcing regularization. S-FISTA couples a non-monotone backtracking procedure with a scaling strategy for the proximal–gradient step, which is particularly effective in situations where signal-dependent noise is present in the data. The proposed algorithm is tested on some image super-resolution problems where a sparsity-promoting regularization term is coupled with a weighted- ℓ2 data fidelity. Our numerical experiments show that S-FISTA allows for faster convergence in function values with respect to standard FISTA, as well as being an efficient inner solver for iteratively reweighted ℓ1 algorithms, thus reducing the overall computational times.
A Scaled and Adaptive FISTA Algorithm for Signal-Dependent Sparse Image Super-Resolution Problems / Lazzaretti, Marta; Rebegoldi, Simone; Calatroni, Luca; Estatico, Claudio. - 12679:(2021), pp. 242-253. (Intervento presentato al convegno 8th International Conference on Scale Space and Variational Methods in Computer Vision, SSVM 2021 tenutosi a Virtual Conference nel 2021) [10.1007/978-3-030-75549-2_20].
A Scaled and Adaptive FISTA Algorithm for Signal-Dependent Sparse Image Super-Resolution Problems
Rebegoldi, SimoneMembro del Collaboration Group
;Calatroni, LucaMembro del Collaboration Group
;Estatico, ClaudioMembro del Collaboration Group
2021
Abstract
We propose a scaled adaptive version of the Fast Iterative Soft-Thresholding Algorithm, named S-FISTA, for the efficient solution of convex optimization problems with sparsity-enforcing regularization. S-FISTA couples a non-monotone backtracking procedure with a scaling strategy for the proximal–gradient step, which is particularly effective in situations where signal-dependent noise is present in the data. The proposed algorithm is tested on some image super-resolution problems where a sparsity-promoting regularization term is coupled with a weighted- ℓ2 data fidelity. Our numerical experiments show that S-FISTA allows for faster convergence in function values with respect to standard FISTA, as well as being an efficient inner solver for iteratively reweighted ℓ1 algorithms, thus reducing the overall computational times.
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