An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints

An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints

The problems studied are the separable variational inequalities with linearly coupling constraints. Some existing decomposition methods are very problem specific, and the computation load is quite costly. Combining the ideas of proximal point algorithm (PPA) and augmented Lagrangian method (ALM), we...

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Main Authors: Xiaoling Fu, Xiangfeng Wang, Haiyan Wang, Ying Zhai
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Advances in Operations Research
Online Access:http://dx.doi.org/10.1155/2012/281396
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spelling doaj-f69beb0b068f4878a0bff4c89ee14d352020-11-24T21:36:53ZengHindawi LimitedAdvances in Operations Research1687-91471687-91552012-01-01201210.1155/2012/281396281396An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling ConstraintsXiaoling Fu0Xiangfeng Wang1Haiyan Wang2Ying Zhai3Institute of System Engineering, Southeast University, Nanjing 210096, ChinaDepartment of Mathematics, Nanjing University, Nanjing 210093, ChinaInstitute of System Engineering, Southeast University, Nanjing 210096, ChinaDepartment of Mathematics, Guangxi Normal University, Guilin 541004, ChinaThe problems studied are the separable variational inequalities with linearly coupling constraints. Some existing decomposition methods are very problem specific, and the computation load is quite costly. Combining the ideas of proximal point algorithm (PPA) and augmented Lagrangian method (ALM), we propose an asymmetric proximal decomposition method (AsPDM) to solve a wide variety separable problems. By adding an auxiliary quadratic term to the general Lagrangian function, our method can take advantage of the separable feature. We also present an inexact version of AsPDM to reduce the computation load of each iteration. In the computation process, the inexact version only uses the function values. Moreover, the inexact criterion and the step size can be implemented in parallel. The convergence of the proposed method is proved, and numerical experiments are employed to show the advantage of AsPDM.http://dx.doi.org/10.1155/2012/281396
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoling Fu
Xiangfeng Wang
Haiyan Wang
Ying Zhai
spellingShingle Xiaoling Fu
Xiangfeng Wang
Haiyan Wang
Ying Zhai
An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
Advances in Operations Research
author_facet Xiaoling Fu
Xiangfeng Wang
Haiyan Wang
Ying Zhai
author_sort Xiaoling Fu
title An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
title_short An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
title_full An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
title_fullStr An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
title_full_unstemmed An Asymmetric Proximal Decomposition Method for Convex Programming with Linearly Coupling Constraints
title_sort asymmetric proximal decomposition method for convex programming with linearly coupling constraints
publisher Hindawi Limited
series Advances in Operations Research
issn 1687-9147
1687-9155
publishDate 2012-01-01
description The problems studied are the separable variational inequalities with linearly coupling constraints. Some existing decomposition methods are very problem specific, and the computation load is quite costly. Combining the ideas of proximal point algorithm (PPA) and augmented Lagrangian method (ALM), we propose an asymmetric proximal decomposition method (AsPDM) to solve a wide variety separable problems. By adding an auxiliary quadratic term to the general Lagrangian function, our method can take advantage of the separable feature. We also present an inexact version of AsPDM to reduce the computation load of each iteration. In the computation process, the inexact version only uses the function values. Moreover, the inexact criterion and the step size can be implemented in parallel. The convergence of the proposed method is proved, and numerical experiments are employed to show the advantage of AsPDM.
url http://dx.doi.org/10.1155/2012/281396
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