Interior Gradient and Epsilon-Subgradient Descent Methods for Constrained Convex Minimization

Authors:
A. Auslender;M. Teboulle
Affiliations:
-;-
Venue:
Mathematics of Operations Research
Year:
2004

Citing 0
Cited 3

A Linearly Convergent Dual-Based Gradient Projection Algorithm for Quadratically Constrained Convex Minimization

Mathematics of Operations Research
Nonmonotone projected gradient methods based on barrier and Euclidean distances

Computational Optimization and Applications
The interior proximal extragradient method for solving equilibrium problems

Journal of Global Optimization

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Abstract

We extend epsilon-subgradient descent methods for unconstrained nonsmooth convex minimization to constrained problems over polyhedral sets, in particular over R p +. This is done by replacing the usual squared quadratic regularization term used in subgradient schemes by the logarithmic-quadratic distancelike function recently introduced by the authors. We then obtain interior e-subgradient descent methods, which allow us to provide a natural extension of bundle methods and Polyak's subgradient projection methods for nonsmooth convex minimization. Furthermore, similar extensions are considered for smooth constrained minimization to produce interior gradient descent methods. Global convergence as well as an improved global efficiency estimate are established for these methods within a unifying principle and minimal assumptions on the problem's data.