An inexact scalarization proximal point method for multiobjective quasiconvex minimization

E. A. Papa Quiroz; S. Cruzado

doi:10.1007/s10479-020-03622-8

An inexact scalarization proximal point method for multiobjective quasiconvex minimization

E. A. Papa Quiroz, S. Cruzado

Direction of Research, Innovation and Social Responsibility

Universidad Nacional Mayor de San Marcos

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

In this paper we present an inexact scalarization proximal point algorithm to solve unconstrained multiobjective minimization problems where the objective functions are quasiconvex and locally Lipschitz. Under some natural assumptions on the problem, we prove that the sequence generated by the algorithm is well defined and converges. Then providing two error criteria we obtain two versions of the algorithm and it is proved that each sequence converges to a Pareto–Clarke critical point of the problem; furthermore, it is also proved that assuming an extra condition, the convergence rate of one of these versions is linear when the regularization parameters are bounded and superlinear when these parameters converge to zero.

Original language	English
Pages (from-to)	1445-1470
Number of pages	26
Journal	Annals of Operations Research
Volume	316
Issue number	2
DOIs	https://doi.org/10.1007/s10479-020-03622-8
State	Published - Sep 2022

Keywords

Clarke subdifferential
Convergence rate
Global convergence
Multiobjective minimization
Pareto optimality
Proximal point method
Quasiconvex functions

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10.1007/s10479-020-03622-8

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title = "An inexact scalarization proximal point method for multiobjective quasiconvex minimization",

abstract = "In this paper we present an inexact scalarization proximal point algorithm to solve unconstrained multiobjective minimization problems where the objective functions are quasiconvex and locally Lipschitz. Under some natural assumptions on the problem, we prove that the sequence generated by the algorithm is well defined and converges. Then providing two error criteria we obtain two versions of the algorithm and it is proved that each sequence converges to a Pareto–Clarke critical point of the problem; furthermore, it is also proved that assuming an extra condition, the convergence rate of one of these versions is linear when the regularization parameters are bounded and superlinear when these parameters converge to zero.",

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author = "Papa Quiroz, {E. A.} and S. Cruzado",

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AU - Cruzado, S.

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N2 - In this paper we present an inexact scalarization proximal point algorithm to solve unconstrained multiobjective minimization problems where the objective functions are quasiconvex and locally Lipschitz. Under some natural assumptions on the problem, we prove that the sequence generated by the algorithm is well defined and converges. Then providing two error criteria we obtain two versions of the algorithm and it is proved that each sequence converges to a Pareto–Clarke critical point of the problem; furthermore, it is also proved that assuming an extra condition, the convergence rate of one of these versions is linear when the regularization parameters are bounded and superlinear when these parameters converge to zero.

AB - In this paper we present an inexact scalarization proximal point algorithm to solve unconstrained multiobjective minimization problems where the objective functions are quasiconvex and locally Lipschitz. Under some natural assumptions on the problem, we prove that the sequence generated by the algorithm is well defined and converges. Then providing two error criteria we obtain two versions of the algorithm and it is proved that each sequence converges to a Pareto–Clarke critical point of the problem; furthermore, it is also proved that assuming an extra condition, the convergence rate of one of these versions is linear when the regularization parameters are bounded and superlinear when these parameters converge to zero.

KW - Clarke subdifferential

KW - Convergence rate

KW - Global convergence

KW - Multiobjective minimization

KW - Pareto optimality

KW - Proximal point method

KW - Quasiconvex functions

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DO - 10.1007/s10479-020-03622-8

M3 - Article

AN - SCOPUS:85084973850

SN - 0254-5330

VL - 316

SP - 1445

EP - 1470

JO - Annals of Operations Research

JF - Annals of Operations Research

IS - 2

ER -

An inexact scalarization proximal point method for multiobjective quasiconvex minimization

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