Newton-like methods for efficient solutions in vector optimization

In this work we study the Newton-like methods for finding efficient solutions of the vector optimization problem for a map from a finite dimensional Hilbert space X to a Banach space Y, with respect to the partial order induced by a closed, convex and pointed cone C with a nonempty interior. We present both exact and inexact versions, in which the subproblems are solved approximately, within a tolerance. Furthermore, we prove that under reasonable hypotheses, the sequence generated by our method converges to an efficient solution of this problem. Copyright Springer Science+Business Media, LLC 2013

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Year of publication:	2013
Authors:	Chuong, Thai
Published in:	Computational Optimization and Applications. - Springer. - Vol. 54.2013, 3, p. 495-516
Publisher:	Springer
Subject:	Vector optimization \| Stationary point \| Efficient solution \| Newton-like methods \| C-positive definite

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Extent:	text/html
Type of publication:	Article
Source:	RePEc - Research Papers in Economics

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