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Multichannel Optical Networks: Theory and Practice
About this Title
Peng-Jun Wan, Illinois Institute of Technology, Chicago, Ding-Zhu Du, University of Minnesota, Minneapolis and Panos M. Pardalos, University of Florida, Gainesville, Editors
Publication: DIMACS Series in Discrete Mathematics and Theoretical Computer Science
Publication Year:
1998; Volume 46
ISBNs: 978-0-8218-1004-0 (print); 978-1-4704-4004-6 (online)
DOI: https://doi.org/10.1090/dimacs/046
MathSciNet review: MR1665482
MSC: Primary 68-06; Secondary 05-06, 68M10, 90B12
Table of Contents
Front/Back Matter
Chapters
- Efficient wavelength routing in trees with low-degree converters
- Maximal throughput in wavelength-routed optical networks
- Minimizing the cost of an optical network
- Bandwidth allocation algorithms for tree and ring networks
- Improved on-line scheduling algorithms for optical WDM networks
- Broadcasting in WDM optical rings and tori
- Gossiping in WDM all-optical square mesh networks
- On the number of wavelengths required to embed multicast assignments in WDM networks
- On conflict-free channel set assignments for optical cluster-based hypercube networks
- Fault-tolerant design of wavelength-routed optical networks
- Protection interoperability for WDM optical networks
- On minimum congestion routing in broadcast optical networks with regular and arbitrary topologies
- Polymorphic control for cost-effective design of optical networks
- Adaptive cycle time for real-time TWDM: Tool and performance analysis
- Optimal node assignment in reconfigurable WDM lightwave networks with regular virtual topologies
- Performance of photonic slot routing networks
- Space-time-wavelength network with group communication locality