Descentwise inexact proximal algorithms for smooth optimization

Descentwise inexact proximal algorithms for smooth optimization

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Article ID: iaor20128214
Volume: 53
Issue: 3
Start Page Number: 755
End Page Number: 769
Publication Date: Dec 2012
Journal: Computational Optimization and Applications
Authors: , ,
Keywords: heuristics
Abstract:

The proximal method is a standard regularization approach in optimization. Practical implementations of this algorithm require (i) an algorithm to compute the proximal point, (ii) a rule to stop this algorithm, (iii) an update formula for the proximal parameter. In this work we focus on (ii), when smoothness is present–so that Newton‐like methods can be used for (i): we aim at giving adequate stopping rules to reach overall efficiency of the method. Roughly speaking, usual rules consist in stopping inner iterations when the current iterate is close to the proximal point. By contrast, we use the standard paradigm of numerical optimization: the basis for our stopping test is a ‘sufficient’ decrease of the objective function, namely a fraction of the ideal decrease. We establish convergence of the algorithm thus obtained and we illustrate it on some ill‐conditioned problems. The experiments show that combining the proposed inexact proximal scheme with a standard smooth optimization algorithm improves the numerical behaviour of the latter for those ill‐conditioned problems.

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