DocumentCode
864936
Title
Generalized Sharing in Survivable Optical Networks
Author
Ali, Maher
Author_Institution
Alcatel Res. & Innovation, Plano, TX
Volume
14
Issue
6
fYear
2006
Firstpage
1388
Lastpage
1399
Abstract
Shared path protection has been demonstrated to be a very efficient survivability scheme for optical networking. In this scheme, multiple backup paths can share a given optical channel if their corresponding primary routes are not expected to fail simultaneously. The focus in this area has been the optimization of the total channels (i.e., bandwidth) provisioned in the network through the intelligent routing of primary and backup routes. In this work, we extend the current path protection sharing scheme and introduce the Generalized Sharing Concept. In this concept, we allow for additional sharing of important node devices. These node devices (e.g., optical-electronic-optical regenerators (OEOs), pure all-optical converters, etc.) constitute the dominant cost factor in an optical backbone network and the reduction of their number is of paramount importance. For demonstration purposes, we extend the concept of 1:N shared path protection to allow for the sharing of electronic regenerators needed for coping with optical transmission impairments. Both design and control plane issues are discussed through numerical examples. Considerable cost reductions in electronic budget are demonstrated
Keywords
optical fibre networks; telecommunication channels; telecommunication network reliability; telecommunication network routing; current path protection sharing scheme; electronic regenerators; generalized sharing concept; intelligent routing; multiple backup paths; optical channel; primary routes; shared path protection; survivability scheme; survivable optical networks; total channels; Bandwidth; Costs; Intelligent networks; Optical devices; Optical fiber devices; Optical fiber networks; Optical wavelength conversion; Protection; Repeaters; Spine; Optical networks; shared protection;
fLanguage
English
Journal_Title
Networking, IEEE/ACM Transactions on
Publisher
ieee
ISSN
1063-6692
Type
jour
DOI
10.1109/TNET.2006.886293
Filename
4032715
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