Kaisa Joki scite author profile

The aim of this paper is to introduce a new proximal double bundle method for unconstrained nonsmooth optimization, where the objective function is presented as a difference of two convex (DC) functions. The novelty in our method is a new escape procedure which enables us to guarantee approximate Clarke stationarity for solutions by utilizing the DC components of the objective function. This optimality condition is stronger than the criticality condition typically used in DC programming. Moreover, if a candidate solution is not approximate Clarke stationary, then the escape procedure returns a descent direction. With this escape procedure, we can avoid some shortcomings encountered when criticality is used. The finite termination of the double bundle method to an approximate Clarke stationary point is proved by assuming that the subdifferentials of DC components are polytopes. Finally, some encouraging numerical results are presented.

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A proximal bundle method for nonsmooth DC optimization utilizing nonconvex cutting planes

Joki

Bagirov

Karmitsa

et al. 2016

J Glob Optim

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Bundle-based descent method for nonsmooth multiobjective DC optimization with inequality constraints

Montonen

Joki

2018

J Glob Optim

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Bundle Methods for Nonsmooth DC Optimization

Joki

Bagirov

2020

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Due to the complexity of many practical applications, we encounter optimization problems with nonsmooth functions, that is, functions which are not continuously differentiable everywhere. Classical gradient-based methods are not applicable to solve such problems, since they may fail in the nonsmooth setting. Therefore, it is imperative to develop numerical methods specifically designed for nonsmooth optimization. To date, bundle methods are considered to be the most efficient and reliable general purpose solvers for this type of problems.

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Clusterwise support vector linear regression

Joki

Bagirov

Karmitsa

et al. 2020

European Journal of Operational Research

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Kaisa Joki

Double Bundle Method for finding Clarke Stationary Points in Nonsmooth DC Programming

A proximal bundle method for nonsmooth DC optimization utilizing nonconvex cutting planes

Bundle-based descent method for nonsmooth multiobjective DC optimization with inequality constraints

Bundle Methods for Nonsmooth DC Optimization

Clusterwise support vector linear regression

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