Capacity planning of a wide-sense nonblocking generalized survivable
network

Kwok Shing Ho; Kwok Wai Cheung

doi:10.1364/JON.5.000463

Journal of Optical Networking
Vol. 5,
Issue 6,
pp. 463-480
(2006)
•https://doi.org/10.1364/JON.5.000463

Capacity planning of a wide-sense nonblocking generalized survivable network

Kwok Shing Ho and Kwok Wai Cheung

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Kwok Shing Ho and Kwok Wai Cheung, "Capacity planning of a wide-sense nonblocking generalized survivable network," J. Opt. Netw. 5, 463-480 (2006)

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Related Topics
Table of Contents Category
- High Availability in Optical Networks
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The topics in this list come from the Optics and Photonics Topics applied to this article.

About this Article
History
- Original Manuscript: January 30, 2006
- Revised Manuscript: April 24, 2006
- Manuscript Accepted: April 24, 2006
- Published: May 18, 2006
Virtual Issues
Journal of Optical Networking High Availability in Optical Networks (2006)

Abstract

Feature Issue on Availability

Generalized survivable networks (GSNs) have two interesting properties that are essential attributes for future backbone networks--full survivability against link failures and support for dynamic traffic demands. GSNs incorporate the nonblocking network concept into the survivable network models. Given a set of nodes and a topology that is at least two-edge connected, a certain minimum capacity is required for each edge to form a GSN. The edge capacity is bounded because each node has an input-output capacity limit that serves as a constraint for any allowable traffic demand matrix. The GSN capacity planning problem is nondeterministic polynomial time (NP) hard. We first give a rigorous mathematical framework; then we offer two different solution approaches. The two-phase approach is fast, but the joint optimization approach yields a better bound. We carried out numerical computations for eight networks with different topologies and found that the cost of a GSN is only a fraction (from 52% to 89%) more than that of a static survivable network.

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Abstract

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Journal of Optical Communications and Networking