Marc Teboulle scite author profile

This paper studies gradient-based schemes for image denoising and deblurring problems based on the discretized total variation (TV) minimization model with constraints. We derive a fast algorithm for the constrained TV-based image deburring problem. To achieve this task, we combine an acceleration of the well known dual approach to the denoising problem with a novel monotone version of a fast iterative shrinkage/thresholding algorithm (FISTA) we have recently introduced. The resulting gradient-based algorithm shares a remarkable simplicity together with a proven global rate of convergence which is significantly better than currently known gradient projections-based methods. Our results are applicable to both the anisotropic and isotropic discretized TV functionals. Initial numerical results demonstrate the viability and efficiency of the proposed algorithms on image deblurring problems with box constraints.

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Mirror descent and nonlinear projected subgradient methods for convex optimization

Beck¹,

Teboulle²

2003

Operations Research Letters

870

872

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A Descent Lemma Beyond Lipschitz Gradient Continuity: First-Order Methods Revisited and Applications

2017

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The proximal gradient and its variants is one of the most attractive first-order algorithm for minimizing the sum of two convex functions, with one being nonsmooth. However, it requires the differentiable part of the objective to have a Lipschitz continuous gradient, thus precluding its use in many applications. In this paper we introduce a framework which allows to circumvent the intricate question of Lipschitz continuity of gradients by using an elegant and easy to check convexity condition which captures the geometry of the constraints. This condition translates into a new descent lemma which in turn leads to a natural derivation of the proximal-gradient scheme with Bregman distances. We then identify a new notion of asymmetry measure for Bregman distances, which is central in determining the relevant step-size. These novelties allow to prove a global sublinear rate of convergence, and as a by-product, global pointwise convergence is obtained. This provides a new path to a broad spectrum of problems arising in key applications which were, until now, considered as out of reach via proximal gradient methods. We illustrate this potential by showing how our results can be applied to build new and simple schemes for Poisson inverse problems.

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Marc Teboulle

A Fast Iterative Shrinkage-Thresholding Algorithm for Linear Inverse Problems

Proximal alternating linearized minimization for nonconvex and nonsmooth problems

Fast Gradient-Based Algorithms for Constrained Total Variation Image Denoising and Deblurring Problems

Mirror descent and nonlinear projected subgradient methods for convex optimization

A Descent Lemma Beyond Lipschitz Gradient Continuity: First-Order Methods Revisited and Applications

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