Title :
Waveband grooming and IP aggregation in optical networks
Author :
Parthiban, Rajendran ; Tucker, Rodney S. ; Leckie, Chris
Author_Institution :
ARC Special Res. Centre for Ultra-Broadband Inf. Networks, Univ. of Melbourne, Vic., Australia
Abstract :
An automatically switched optical network (ASON) can be used as the transport layer of generalized multiprotocol label switching (GMPLS) networks. The design of an ASON involves determining the number of optical cross-connects (OXC) in the network, the required number of ports per OXC, and the interconnection topology of the OXCs. Given the number of ports per OXC, we present a linear algorithm to find the number of OXCs and to identify a cost-effective topology. We then develop a scheme that can be used to perform waveband grooming for several different topologies of an ASON that uses single-layer multigranular OXCs. We identify the bottlenecks and investigate the effect of traffic grooming schemes in the design of an ASON as a function of the peak access rate per customer. We evaluate the topologies and architectures for a national trunk network.
Keywords :
IP networks; multiprotocol label switching; optical interconnections; photonic switching systems; routing protocols; telecommunication congestion control; wavelength division multiplexing; IP aggregation; WDM networks; automatically switched optical network; bottlenecks; cost-effective topology; generalized multiprotocol label switching; heuristic algorithm; hybrid networks; interconnection topology; mathematical models; multi-granularity architecture framework; national trunk network; optical Internet; optical cross-connects; peak access rate per customer; traffic aggregation schemes; transport layer; waveband grooming; wavelength continuity constraint; Electronic mail; Intelligent networks; Multiprotocol label switching; Network topology; Optical design; Optical fiber networks; Quality of service; Telecommunication network topology; Telecommunication traffic; Time division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.819136
