Title :
Optical Network Design for a Multiline-Rate Carrier-Grade Ethernet Under Transmission-Range Constraints
Author :
Batayneh, Marwan ; Schupke, Dominic A. ; Hoffmann, Marco ; Kirstadter, Andreas ; Mukherjee, Biswanath
Author_Institution :
Univ. of California, Davis
Abstract :
Ethernet is a success story in local area networks (LAN). Efforts for extending its boundaries beyond LAN to the carriers´ backbone networks are in progress. We study the problem of designing reliable and cost-efficient high-rate (100 Gbit/s) carrier-grade Ethernet in a multiline-rate optical network under signal transmission-range constraints. Reliability is achieved using shared-path protection at the connection level (Ethernet tunnel in this study). We construct an auxiliary graph, called mixed topology (MT), using which it is possible to: 1) identify traffic grooming possibilities; 2) select a path which requires the minimum amount of 3R regeneration; and 3) effectively choose the data rate of the channel to be established. Our algorithms, tested on the 17-node German network, resulted in lower network cost and higher resource utilization compared with other schemes.
Keywords :
optical fibre LAN; optical repeaters; telecommunication channels; telecommunication network reliability; telecommunication network topology; telecommunication traffic; 17-node German network; 3R regeneration; auxiliary graph; carrier grade Ethernet; local area networks; mixed topology; multiline-rate optical network design; shared-path protection; signal transmission-range constraints; telecommunication reliability; traffic grooming; Ethernet networks; Local area networks; Network topology; Optical design; Optical fiber LAN; Optical fiber networks; Protection; Signal design; Spine; Telecommunication traffic; 3R regeneration; Ethernet; Etherpath; carrier grade; link stretching; mixed topology (MT); multiline rate; signal transmission range;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.913027
