New pruning rules for the Steiner tree problem and 2-connected Steiner network problem

Marcus Brazil; Marcus Volz; Martin Zachariasen; Charl Ras; Doreen A. Thomas

New pruning rules for the Steiner tree problem and 2-connected Steiner network problem

Marcus Brazil, Marcus Volz, Martin Zachariasen, Charl Ras, Doreen A. Thomas

Research output: Journal Article or Conference Article in Journal › Journal article › Research › peer-review

Abstract

We introduce the concepts of k-lunes and k-lune inequalities, which form the basis for new geometric pruning rules for limiting the number of candidate full components that need to be considered when solving the Euclidean Steiner tree problem or the Euclidean 2-connected Steiner network problem. For the latter problem, these new pruning rules constitute the first empty region properties to have been developed for the problem. We show how to implement these rules efficiently and run computational experiments, indicating the extent to which they can improve the performance of state-of-the-art algorithms for these problems.

Original language	English
Journal	Computational Geometry
Pages (from-to)	37-49
Number of pages	13
ISSN	0925-7721
Publication status	Published - 2019
Externally published	Yes

Keywords

Steiner trees
2-Connected networks
Lunes
GeoSteiner
Pruning rules

Cite this

@article{a7d3008a22b24e959f3be8f6a5020af4,

title = "New pruning rules for the Steiner tree problem and 2-connected Steiner network problem",

abstract = "We introduce the concepts of k-lunes and k-lune inequalities, which form the basis for new geometric pruning rules for limiting the number of candidate full components that need to be considered when solving the Euclidean Steiner tree problem or the Euclidean 2-connected Steiner network problem. For the latter problem, these new pruning rules constitute the first empty region properties to have been developed for the problem. We show how to implement these rules efficiently and run computational experiments, indicating the extent to which they can improve the performance of state-of-the-art algorithms for these problems.",

keywords = "Steiner trees, 2-Connected networks, Lunes, GeoSteiner, Pruning rules, Steiner trees, 2-Connected networks, Lunes, GeoSteiner, Pruning rules",

author = "Marcus Brazil and Marcus Volz and Martin Zachariasen and Charl Ras and Thomas, {Doreen A.}",

year = "2019",

language = "English",

pages = "37--49",

journal = "Computational Geometry",

issn = "0925-7721",

publisher = "Elsevier",

}

TY - JOUR

T1 - New pruning rules for the Steiner tree problem and 2-connected Steiner network problem

AU - Brazil, Marcus

AU - Volz, Marcus

AU - Zachariasen, Martin

AU - Ras, Charl

AU - Thomas, Doreen A.

PY - 2019

Y1 - 2019

N2 - We introduce the concepts of k-lunes and k-lune inequalities, which form the basis for new geometric pruning rules for limiting the number of candidate full components that need to be considered when solving the Euclidean Steiner tree problem or the Euclidean 2-connected Steiner network problem. For the latter problem, these new pruning rules constitute the first empty region properties to have been developed for the problem. We show how to implement these rules efficiently and run computational experiments, indicating the extent to which they can improve the performance of state-of-the-art algorithms for these problems.

AB - We introduce the concepts of k-lunes and k-lune inequalities, which form the basis for new geometric pruning rules for limiting the number of candidate full components that need to be considered when solving the Euclidean Steiner tree problem or the Euclidean 2-connected Steiner network problem. For the latter problem, these new pruning rules constitute the first empty region properties to have been developed for the problem. We show how to implement these rules efficiently and run computational experiments, indicating the extent to which they can improve the performance of state-of-the-art algorithms for these problems.

KW - Steiner trees

KW - 2-Connected networks

KW - Lunes

KW - GeoSteiner

KW - Pruning rules

KW - Steiner trees

KW - 2-Connected networks

KW - Lunes

KW - GeoSteiner

KW - Pruning rules

M3 - Journal article

SN - 0925-7721

SP - 37

EP - 49

JO - Computational Geometry

JF - Computational Geometry

ER -

New pruning rules for the Steiner tree problem and 2-connected Steiner network problem

Abstract

Keywords

Fingerprint

Cite this