Convergence of the proximal point method for metrically regular mappings

Aragón Artacho, Francisco J.; Dontchev, A. L.; Geoffroy, M. H.

Title: Convergence of the proximal point method for metrically regular mappings
Creator: Aragón Artacho, Francisco J.; Dontchev, A. L.; Geoffroy, M. H.
Relation: ESAIM: Proceedings Vol. 17, Issue April, p. 1-8
Publisher Link: http://dx.doi.org/10.1051/proc:071701
Publisher: E. D. P. Sciences
Resource Type: journal article
Date: 2007
Description: In this paper we consider the following general version of the proximal point algorithm for solving the inclusion T(x) ∋ 0, where T is a set-valued mapping acting from a Banach space X to a Banach space Y. First, choose any sequence of functions g_n : X → Y with g_n(0) = 0 that are Lipschitz continuous in a neighborhood of the origin. Then pick an initial guess x₀ and find a sequence x_n by applying the iteration g_n(x_n1^-x_n)+T(x_n+1) ∋ 0 for n = 0,1,... We prove that if the Lipschitz constants of g_n are bounded by half the reciprocal of the modulus of regularity of T, then there exists a neighborhood O of x̅ (x̅ being a solution to T(x) ∋ 0) such that for each initial point x₀ ∈ O one can find a sequence x_n generated by the algorithm which is linearly convergent to x̅. Moreover, if the functions g_n have their Lipschitz constants convergent to zero, then there exists a sequence starting from x₀ ∈ O which is superlinearly convergent to x̅. Similar convergence results are obtained for the cases when the mapping T is strongly subregular and strongly regular.
Subject: proximal point algorithm; set-valued mapping; metric regularity; subregularity; strong regularity; variational inequality; optimization
Identifier: http://hdl.handle.net/1959.13/933728
Identifier: uon:11701
Identifier: ISSN:1270-900X
Rights: The original publication is available at http://www.esaim‐proc.org
Language: eng
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