DocumentCode
1389520
Title
Architectures and Protocols for Capacity Efficient, Highly Dynamic and Highly Resilient Core Networks [Invited]
Author
Chiu, Angela L. ; Choudhury, Gagan ; Clapp, George ; Doverspike, Robert ; Feuer, Mark ; Gannett, Joel W. ; Jackel, Janet ; Kim, Gi Tae ; Klincewicz, John G. ; Kwon, Taek Jin ; Li, Guangzhi ; Magill, Peter ; Simmons, Jane M. ; Skoog, Ronald A. ; Strand, Jo
Author_Institution
AT&T Labs., USA
Volume
4
Issue
1
fYear
2012
fDate
1/1/2012 12:00:00 AM
Firstpage
1
Lastpage
14
Abstract
The Core Optical Networks (CORONET) program addresses the development of architectures, protocols, and network control and management to support the future advanced requirements of both commercial and government networks, with a focus on highly dynamic and highly resilient multi-terabit core networks. CORONET encompasses a global network supporting a combination of IP and wavelength services. Satisfying the aggressive requirements of the program required a comprehensive approach addressing connection setup, restoration, quality of service, network design, and nodal architecture. This paper addresses the major innovations developed in Phase 1 of the program by the team led by Telcordia and AT&T. The ultimate goal is to transfer the technology to commercial and government networks for deployment in the next few years.
Keywords
IP networks; optical fibre networks; protocols; quality of service; telecommunication network management; CORONET; IP service; addressing connection setup; dynamic core optical networks; multi-terabit core networks; network control; network design; network management; nodal architecture; protocols; quality of service; wavelength service; Bandwidth; IP networks; Measurement; Optical switches; Protocols; Quality of service; Routing; Core networks; Dynamic networks; Network architecture; Network evolution; Network restoration; Optical networks;
fLanguage
English
Journal_Title
Optical Communications and Networking, IEEE/OSA Journal of
Publisher
ieee
ISSN
1943-0620
Type
jour
DOI
10.1364/JOCN.4.000001
Filename
6095480
Link To Document