Hybrid modelling for robust solving

Brahim Hnich; Zeynep Kiziltan; Ian Miguel; Toby Walsh

doi:10.1023/B:ANOR.0000032568.51115.0d

Hybrid modelling for robust solving

Brahim Hnich^*, Zeynep Kiziltan, Ian Miguel, Toby Walsh

^*Corresponding author for this work

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

Abstract

We study a balanced academic curriculum problem and an industrial steel mill slab design problem. These problems can be modelled in different ways, using both Integer Linear Programming (ILP) and Constraint Programming (CP) techniques. We consider the utility of each model. We also propose integrating the models to create hybrids that benefit from the complementary strengths of each model. Experimental results show that hybridization significantly increases the domain pruning and decreases the run-time on many instances. Furthermore, a CP/ILP hybrid model gives a more robust performance in the face of varying instance data.

Original language	English
Pages (from-to)	19-39
Number of pages	21
Journal	Annals of Operations Research
Volume	130
Issue number	1-4
DOIs	https://doi.org/10.1023/B:ANOR.0000032568.51115.0d
Publication status	Published - 1 Aug 2004

Keywords

Application
Constraint programming
Integer linear programming
Integration
Modelling

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title = "Hybrid modelling for robust solving",

abstract = "We study a balanced academic curriculum problem and an industrial steel mill slab design problem. These problems can be modelled in different ways, using both Integer Linear Programming (ILP) and Constraint Programming (CP) techniques. We consider the utility of each model. We also propose integrating the models to create hybrids that benefit from the complementary strengths of each model. Experimental results show that hybridization significantly increases the domain pruning and decreases the run-time on many instances. Furthermore, a CP/ILP hybrid model gives a more robust performance in the face of varying instance data.",

keywords = "Application, Constraint programming, Integer linear programming, Integration, Modelling",

author = "Brahim Hnich and Zeynep Kiziltan and Ian Miguel and Toby Walsh",

note = "Funding: The first and the last authors are supported by Science Foundation Ireland and an ILOG grant. The third author is supported by UK-EPSRC grant number GR/N16129.",

year = "2004",

month = aug,

day = "1",

doi = "10.1023/B:ANOR.0000032568.51115.0d",

language = "English",

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journal = "Annals of Operations Research",

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TY - JOUR

T1 - Hybrid modelling for robust solving

AU - Hnich, Brahim

AU - Kiziltan, Zeynep

AU - Miguel, Ian

AU - Walsh, Toby

N1 - Funding: The first and the last authors are supported by Science Foundation Ireland and an ILOG grant. The third author is supported by UK-EPSRC grant number GR/N16129.

PY - 2004/8/1

Y1 - 2004/8/1

N2 - We study a balanced academic curriculum problem and an industrial steel mill slab design problem. These problems can be modelled in different ways, using both Integer Linear Programming (ILP) and Constraint Programming (CP) techniques. We consider the utility of each model. We also propose integrating the models to create hybrids that benefit from the complementary strengths of each model. Experimental results show that hybridization significantly increases the domain pruning and decreases the run-time on many instances. Furthermore, a CP/ILP hybrid model gives a more robust performance in the face of varying instance data.

AB - We study a balanced academic curriculum problem and an industrial steel mill slab design problem. These problems can be modelled in different ways, using both Integer Linear Programming (ILP) and Constraint Programming (CP) techniques. We consider the utility of each model. We also propose integrating the models to create hybrids that benefit from the complementary strengths of each model. Experimental results show that hybridization significantly increases the domain pruning and decreases the run-time on many instances. Furthermore, a CP/ILP hybrid model gives a more robust performance in the face of varying instance data.

KW - Application

KW - Constraint programming

KW - Integer linear programming

KW - Integration

KW - Modelling

U2 - 10.1023/B:ANOR.0000032568.51115.0d

DO - 10.1023/B:ANOR.0000032568.51115.0d

M3 - Article

AN - SCOPUS:3142742396

SN - 0254-5330

VL - 130

SP - 19

EP - 39

JO - Annals of Operations Research

JF - Annals of Operations Research

IS - 1-4

ER -

Hybrid modelling for robust solving

Abstract

Keywords

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