Abstract :
Optical access networks are beginning to be deployed at the edge of the optical backbone network to support access by the high-end users that drive increased bandwidth demands. This development in the applications of optical networking poses new challenges in the areas of medium access, topology design, and network management. In particular, since optical access networks carry high volumes of critical traffic, the level of reliability and robustness traditionally reserved for core applications must be implemented in access networks. We survey access network architectures and outline the issues associated with providing reliability for these architectures. In the area of architecture design, two main approaches emerge. The first considers dedicated optical access networks, such as stars or folded buses, to implement optical access LANs and MANs. The second is overlay architectures, which use existing network infrastructure. Overlay architectures seek to replicate, on a smaller scale, logical topologies akin to those of backbone networks, or may instead create architectures specifically designed for access purposes
Keywords :
computer network management; computer network reliability; network topology; optical fibre LAN; optical fibre subscriber loops; telecommunication traffic; wide area networks; access network architectures; backbone networks; bandwidth; bus topologies; local area networks; medium access; metropolitan area networks; network management; network reliability; network topology design; optical access LAN; optical access MAN; optical access networks; optical backbone network; overlay access architecture; robust optical access; star topologies; traffic; Bandwidth; Network topology; Optical design; Optical fiber networks; Optical switches; Robustness; Spine; Telecommunication network reliability; Telecommunication traffic; Wavelength division multiplexing;
