Survivability in hierarchical telecommunications networks under dual homing

Date

2014

Authors

Karaşan, O. E.
Mahjoub, A. R.
Özkök, O.
Yaman, H.

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Source Title

INFORMS Journal on Computing

Print ISSN

1091-9856

Electronic ISSN

1526-5528

Publisher

Institute for Operations Research and the Management Sciences (I N F O R M S)

Volume

26

Issue

1

Pages

1 - 15

Language

English

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Abstract

The motivation behind this study is the essential need for survivability in the telecommunications networks. An optical signal should find its destination even if the network experiences an occasional fiber cut. We consider the design of a two-level survivable telecommunications network. Terminals compiling the access layer communicate through hubs forming the backbone layer. To hedge against single link failures in the network, we require the backbone subgraph to be two-edge connected and the terminal nodes to connect to the backbone layer in a dual-homed fashion, i.e., at two distinct hubs. The underlying design problem partitions a given set of nodes into hubs and terminals, chooses a set of connections between the hubs such that the resulting backbone network is two-edge connected, and for each terminal chooses two hubs to provide the dual-homing backbone access. All of these decisions are jointly made based on some cost considerations. We give alternative formulations using cut inequalities, compare these formulations, provide a polyhedral analysis of the smallsized formulation, describe valid inequalities, study the associated separation problems, and design variable fixing rules. All of these findings are then utilized in devising an efficient branch-and-cut algorithm to solve this network design problem.

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