Open AccessAccelerated bregman operator splitting with backtracking
Author(s) -
Yunmei Chen,
Xianqi Li,
Yuyuan Ouyang,
Eduardo Pasiliao
Publication year - 2017
Publication title -
inverse problems and imaging
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.755
H-Index - 40
eISSN - 1930-8345
pISSN - 1930-8337
DOI - 10.3934/ipi.2017048
Subject(s) - regularization (linguistics) , backtracking , bounded function , rate of convergence , acceleration , mathematical optimization , operator (biology) , mathematics , algorithm , inverse problem , convergence (economics) , computer science , key (lock) , artificial intelligence , mathematical analysis , biochemistry , chemistry , physics , computer security , classical mechanics , repressor , transcription factor , economics , gene , economic growth
This paper develops two accelerated Bregman Operator Splitting (BOS) algorithms with backtracking for solving regularized large-scale linear inverse problems, where the regularization term may not be smooth. The first algorithm improves the rate of convergence for BOSVS [ 5 ] in terms of the smooth component in the objective function by incorporating Nesterov's multi-step acceleration scheme under the assumption that the feasible set is bounded. The second algorithm is capable of dealing with the case where the feasible set is unbounded. Moreover, it allows more aggressive stepsize than that in the first scheme by properly selecting the penalty parameter and jointly updating the acceleration parameter and stepsize. Both algorithms exhibit better practical performance than BOSVS and AADMM [ 21 ], while preserve the same accelerated rate of convergence as that for AADMM. The numerical results on total-variation based image reconstruction problems indicate the effectiveness of the proposed algorithms.
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