Multicast Routing In Optical Access Networks

Widely available broadband services in the Internet require high capacity access networks. Only optical networking is able to efficiently provide the huge bandwidth required by multimedia applications. Distributed applications such as Video-Conferencing, HDTV, VOD and Distance Learning are increasingly common and produce a large amount of data traffic, typically between several terminals. Multicast is a bandwidth-efficient technique for one-to-many or many-to-many communications, and will be indispensable for serving multimedia applications in future optical access networks. These applications require robust and reliable connections as well as the satisfaction of QoS criteria. In this chapter, several access network architectures and related multicast routing methods are analyzed. Overall network performance and dependability are the focus of our analysis

Scheduling Algorithms for Multicast Traffic in TDM/WDM Networks with Arbitrary Tuning Latencies

We consider all-optical TDM/WDM broadcast and select networks. We assume that each network node is equipped with one fixed transmitter and one tunable receiver; tuning times are assumed to be not negligible with respect to the slot time. We discuss efficient scheduling algorithms to assign TDM/WDM slots to multicast traffic in such networks. Given the problem complexity, heuristic algorithms based on the Tabu Search methodology are proposed, and their performance are assessed using randomly created request matrices based on two types of multicast traffic patterns: a video-conference and a server distribution traffic pattern. The considered performance index is the frame length required to schedule all the traffic