On solving multi-commodity flow problems: An experimental evaluation

Weibin DAI; Jun ZHANG; Xiaoqian SUN

doi:10.1016/j.cja.2017.05.012

On solving multi-commodity flow problems: An experimental evaluation

Weibin DAI, Jun ZHANG, Xiaoqian SUN^*

^*Corresponding author for this work

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

16 Citations (Scopus)

Abstract

Multi-commodity flow problems (MCFs) can be found in many areas, such as transportation, communication, and logistics. Therefore, such problems have been studied by a multitude of researchers, and a variety of methods have been proposed for solving it. However, most researchers only discuss the properties of different models and algorithms without taking into account the impacts of actual implementation. In fact, the true performance of a method may differ greatly across various implementations. In this paper, several popular optimization solvers for implementations of column generation and Lagrangian relaxation are discussed. In order to test scalability and optimality, three groups of networks with different structures are used as case studies. Results show that column generation outperforms Lagrangian relaxation in most instances, but the latter is better suited to networks with a large number of commodities.

Original language	English
Pages (from-to)	1481-1492
Number of pages	12
Journal	Chinese Journal of Aeronautics
Volume	30
Issue number	4
DOIs	https://doi.org/10.1016/j.cja.2017.05.012
Publication status	Published - Aug 2017
Externally published	Yes

Keywords

Column generation
Evaluation
Implementation
Lagrangian relaxation
Multi-commodity flow problem

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10.1016/j.cja.2017.05.012

Cite this

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title = "On solving multi-commodity flow problems: An experimental evaluation",

abstract = "Multi-commodity flow problems (MCFs) can be found in many areas, such as transportation, communication, and logistics. Therefore, such problems have been studied by a multitude of researchers, and a variety of methods have been proposed for solving it. However, most researchers only discuss the properties of different models and algorithms without taking into account the impacts of actual implementation. In fact, the true performance of a method may differ greatly across various implementations. In this paper, several popular optimization solvers for implementations of column generation and Lagrangian relaxation are discussed. In order to test scalability and optimality, three groups of networks with different structures are used as case studies. Results show that column generation outperforms Lagrangian relaxation in most instances, but the latter is better suited to networks with a large number of commodities.",

keywords = "Column generation, Evaluation, Implementation, Lagrangian relaxation, Multi-commodity flow problem",

author = "Weibin DAI and Jun ZHANG and Xiaoqian SUN",

note = "Publisher Copyright: {\textcopyright} 2017 Chinese Society of Aeronautics and Astronautics",

year = "2017",

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TY - JOUR

T1 - On solving multi-commodity flow problems

T2 - An experimental evaluation

AU - DAI, Weibin

AU - ZHANG, Jun

AU - SUN, Xiaoqian

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N2 - Multi-commodity flow problems (MCFs) can be found in many areas, such as transportation, communication, and logistics. Therefore, such problems have been studied by a multitude of researchers, and a variety of methods have been proposed for solving it. However, most researchers only discuss the properties of different models and algorithms without taking into account the impacts of actual implementation. In fact, the true performance of a method may differ greatly across various implementations. In this paper, several popular optimization solvers for implementations of column generation and Lagrangian relaxation are discussed. In order to test scalability and optimality, three groups of networks with different structures are used as case studies. Results show that column generation outperforms Lagrangian relaxation in most instances, but the latter is better suited to networks with a large number of commodities.

AB - Multi-commodity flow problems (MCFs) can be found in many areas, such as transportation, communication, and logistics. Therefore, such problems have been studied by a multitude of researchers, and a variety of methods have been proposed for solving it. However, most researchers only discuss the properties of different models and algorithms without taking into account the impacts of actual implementation. In fact, the true performance of a method may differ greatly across various implementations. In this paper, several popular optimization solvers for implementations of column generation and Lagrangian relaxation are discussed. In order to test scalability and optimality, three groups of networks with different structures are used as case studies. Results show that column generation outperforms Lagrangian relaxation in most instances, but the latter is better suited to networks with a large number of commodities.

KW - Column generation

KW - Evaluation

KW - Implementation

KW - Lagrangian relaxation

KW - Multi-commodity flow problem

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EP - 1492

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JF - Chinese Journal of Aeronautics

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On solving multi-commodity flow problems: An experimental evaluation

Abstract

Keywords

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