A DISTRIBUTED DOUGLAS-RACHFORD SPLITTING METHOD FOR SOLVING LINEAR CONSTRAINED MULTI-BLOCK WEAKLY CONVEX PROBLEMS

Leyu Hu; Jiaxin Xie; Xingju Cai; Deren Han

doi:10.3934/ipi.2024048

A DISTRIBUTED DOUGLAS-RACHFORD SPLITTING METHOD FOR SOLVING LINEAR CONSTRAINED MULTI-BLOCK WEAKLY CONVEX PROBLEMS

Leyu Hu
, Jiaxin Xie
, Xingju Cai
, Deren Han^*

^*Corresponding author for this work

School of Mathematical Sciences

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

Abstract

In recent years, a distributed Douglas-Rachford splitting method (DDRSM) has been proposed to tackle multi-block separable convex optimization problems. This algorithm offers relatively easier subproblems and greater efficiency for large-scale problems compared to various augmented-Lagrangianbased parallel algorithms. Building upon this, we explore the extension of DDRSM to weakly convex cases. By assuming weak convexity of the objective function and introducing an error bound assumption, we demonstrate the linear convergence rate of DDRSM. Some promising numerical experiments involving compressed sensing and robust alignment of structures across images (RASL) show that DDRSM has advantages over augmented-Lagrangian-based algorithms, even in weakly convex scenarios.

Original language	English
Pages (from-to)	632-659
Number of pages	28
Journal	Inverse Problems and Imaging
Volume	19
Issue number	4
DOIs	https://doi.org/10.3934/ipi.2024048
State	Published - Aug 2025

Keywords

Multi-block problems
distributed Douglas-Rachford splitting method
error bound
linear convergence rate
parallel algorithm
weakly convex

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10.3934/ipi.2024048

Cite this

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abstract = "In recent years, a distributed Douglas-Rachford splitting method (DDRSM) has been proposed to tackle multi-block separable convex optimization problems. This algorithm offers relatively easier subproblems and greater efficiency for large-scale problems compared to various augmented-Lagrangianbased parallel algorithms. Building upon this, we explore the extension of DDRSM to weakly convex cases. By assuming weak convexity of the objective function and introducing an error bound assumption, we demonstrate the linear convergence rate of DDRSM. Some promising numerical experiments involving compressed sensing and robust alignment of structures across images (RASL) show that DDRSM has advantages over augmented-Lagrangian-based algorithms, even in weakly convex scenarios.",

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author = "Leyu Hu and Jiaxin Xie and Xingju Cai and Deren Han",

year = "2025",

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AU - Cai, Xingju

AU - Han, Deren

PY - 2025/8

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N2 - In recent years, a distributed Douglas-Rachford splitting method (DDRSM) has been proposed to tackle multi-block separable convex optimization problems. This algorithm offers relatively easier subproblems and greater efficiency for large-scale problems compared to various augmented-Lagrangianbased parallel algorithms. Building upon this, we explore the extension of DDRSM to weakly convex cases. By assuming weak convexity of the objective function and introducing an error bound assumption, we demonstrate the linear convergence rate of DDRSM. Some promising numerical experiments involving compressed sensing and robust alignment of structures across images (RASL) show that DDRSM has advantages over augmented-Lagrangian-based algorithms, even in weakly convex scenarios.

AB - In recent years, a distributed Douglas-Rachford splitting method (DDRSM) has been proposed to tackle multi-block separable convex optimization problems. This algorithm offers relatively easier subproblems and greater efficiency for large-scale problems compared to various augmented-Lagrangianbased parallel algorithms. Building upon this, we explore the extension of DDRSM to weakly convex cases. By assuming weak convexity of the objective function and introducing an error bound assumption, we demonstrate the linear convergence rate of DDRSM. Some promising numerical experiments involving compressed sensing and robust alignment of structures across images (RASL) show that DDRSM has advantages over augmented-Lagrangian-based algorithms, even in weakly convex scenarios.

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KW - distributed Douglas-Rachford splitting method

KW - error bound

KW - linear convergence rate

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JO - Inverse Problems and Imaging

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ER -

A DISTRIBUTED DOUGLAS-RACHFORD SPLITTING METHOD FOR SOLVING LINEAR CONSTRAINED MULTI-BLOCK WEAKLY CONVEX PROBLEMS

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