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To meet the recently increasing traffic demand, WDM techniques have been evolving to efficiently exploit the huge capacities of all-optical networks. This book focuses on constrained all-optical multicast routing (AOMR) in WDM networks. Conventional consensus to model optical multicast routes based on trees is no longer adequate. Therefore the study relies on a more general graph-related structure called hierarchy. The book begins by introducing fundamental WDM technological backgrounds, mathematical modeling to the problems and literature review in the three first chapters. The detailed…mehr

Produktbeschreibung
To meet the recently increasing traffic demand, WDM techniques have been evolving to efficiently exploit the huge capacities of all-optical networks. This book focuses on constrained all-optical multicast routing (AOMR) in WDM networks. Conventional consensus to model optical multicast routes based on trees is no longer adequate. Therefore the study relies on a more general graph-related structure called hierarchy. The book begins by introducing fundamental WDM technological backgrounds, mathematical modeling to the problems and literature review in the three first chapters. The detailed investigations for specific network scenarios are presented in the next three chapters, including ILP formulations, techniques to prove NP-hardness, and heuristic algorithms. Simulation results show that the optimal solutions for constrained AOMR problems correspond to hierarchies which can model not only the existing solutions as light-trees, but also the novel light-structures as light-hierarchies. Those who are interested in optical WDM networks, graph theory, complexity theory, combinatorial optimization, or heuristic algorithms can find this book a very interesting and helpful reference.
Autorenporträt
Dinh Danh LE received his PhD degree at the LIRMM, University of Montpellier, France in March 2015. He then joined Orange Labs, France since June 2015 as a postdoc research-engineer. His study interests include: combinatorial optimization, QoS aware-multicasting, all-optical WDM networks, flex-grid elastic optical networks, GMPLS control plane.