An extension of proximal methods for quasiconvex minimization on the nonnegative orthant

E. A. Papa Quiroz; P. Roberto Oliveira

doi:10.1016/j.ejor.2011.07.019

An extension of proximal methods for quasiconvex minimization on the nonnegative orthant

E. A. Papa Quiroz, P. Roberto Oliveira

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17 Scopus citations

Abstract

In this paper we propose an extension of proximal methods to solve minimization problems with quasiconvex objective functions on the nonnegative orthant. Assuming that the function is bounded from below and lower semicontinuous and using a general proximal distance, it is proved that the iterations given by our algorithm are well defined and stay in the positive orthant. If the objective function is quasiconvex we obtain the convergence of the iterates to a certain set which contains the set of optimal solutions and convergence to a KKT point if the function is continuously differentiable and the proximal parameters are bounded. Furthermore, we introduce a sufficient condition on the proximal distance such that the sequence converges to an optimal solution of the problem.

Original language	English
Pages (from-to)	26-32
Number of pages	7
Journal	European Journal of Operational Research
Volume	216
Issue number	1
DOIs	https://doi.org/10.1016/j.ejor.2011.07.019
State	Published - 1 Jan 2012
Externally published	Yes

Keywords

Nonnegative orthant
Proximal distances
Proximal point methods
Quasiconvex functions

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10.1016/j.ejor.2011.07.019

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abstract = "In this paper we propose an extension of proximal methods to solve minimization problems with quasiconvex objective functions on the nonnegative orthant. Assuming that the function is bounded from below and lower semicontinuous and using a general proximal distance, it is proved that the iterations given by our algorithm are well defined and stay in the positive orthant. If the objective function is quasiconvex we obtain the convergence of the iterates to a certain set which contains the set of optimal solutions and convergence to a KKT point if the function is continuously differentiable and the proximal parameters are bounded. Furthermore, we introduce a sufficient condition on the proximal distance such that the sequence converges to an optimal solution of the problem.",

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AB - In this paper we propose an extension of proximal methods to solve minimization problems with quasiconvex objective functions on the nonnegative orthant. Assuming that the function is bounded from below and lower semicontinuous and using a general proximal distance, it is proved that the iterations given by our algorithm are well defined and stay in the positive orthant. If the objective function is quasiconvex we obtain the convergence of the iterates to a certain set which contains the set of optimal solutions and convergence to a KKT point if the function is continuously differentiable and the proximal parameters are bounded. Furthermore, we introduce a sufficient condition on the proximal distance such that the sequence converges to an optimal solution of the problem.

KW - Nonnegative orthant

KW - Proximal distances

KW - Proximal point methods

KW - Quasiconvex functions

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EP - 32

JO - European Journal of Operational Research

JF - European Journal of Operational Research

IS - 1

ER -

An extension of proximal methods for quasiconvex minimization on the nonnegative orthant

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Keywords

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