Multiwavelength Optical Networks
Architectures, Design, and Control
2nd Edition
Published on 8. December 2008
Book
Hardback
1004 pages
978-0-521-88139-5 (ISBN)
Description
Updated and expanded, this second edition of the acclaimed Multiwavelength Optical Networks provides a detailed description of the structure and operation of modern optical networks. It also sets out the analytical tools for network performance evaluation and optimization for current and next generation networks, as well as the latest advances in enabling technologies. Backbone optical networks are evolving to mesh topologies using intelligent network elements; a new optical control plane is taking shape based on GMPLS; and significant advances have occurred in Fiber to the Home/Premises (the 'last mile'), metropolitan area networks, protection and restoration, and IP over WDM. New research on all-optical packet switched networks is also covered in depth. Also included are current trends and new applications on the commercial scene. This book is an invaluable resource for graduate and senior undergraduate students in electrical engineering, computer science, and applied physics, and for practitioners in the telecommunications industry.
Reviews / Votes
"The rationale for the second edition is solid, and the proposed changes are extensive and comprehensive, covering the most important advances in the field since the first edition was published. The authors' credentials are impeccable. I used the first edition extensively, both as a reference for my research and for my graduate course on optical networks."George Rouskas, North Carolina State University
More details
Edition
2nd Revised edition
Language
English
Place of publication
Cambridge
United Kingdom
Target group
Professional and scholarly
Edition type
Revised edition
Product notice
sewn/stitched
Paper over boards
Dimensions
Height: 263 mm
Width: 187 mm
Thickness: 47 mm
Weight
1584 gr
ISBN-13
978-0-521-88139-5 (9780521881395)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Thomas E. Stern | Georgios Ellinas | Krishna Bala
Multiwavelength Optical Networks
Architectures, Design, and Control
E-Book
02/2009
2nd Edition
Cambridge University Press
€120.99
Available for download
Persons
Thomas Stern is Professor Emeritus of Electrical Engineering at Columbia University, New York, and has served as department chair and technical director of Columbia's Center for Telecommunications Research. A Life Fellow of the IEEE, he holds several patents in networking and has published widely in the field. He has also been a consultant to a number of large companies such as IBM, Lucent, GTE, and Telcordia Technologies. Georgios Ellinas is an Assistant Professor in the Department of Electrical and Computer Engineering at the University of Cyprus, Nicosia. Prior to that he has worked as an Associate Professor at City College of New York, as a Senior Network Architect at Tellium Inc., and as a Senior Research Scientist at Bell Communications Research. He has authored numerous papers and holds several patents in the field of optical networking. Krishna Bala is currently CEO and President of Xtellus, a company that designs and manufactures advanced optical components and systems for dynamic optical networks. Krishna was the co-founder and CTO of Tellium, a successful optical networking company. He holds nine patents. Previous positions also include senior research scientist at Bell Communications Research. He holds a Ph.D. in electrical engineering from Columbia University, where he published one of the earliest dissertations in routing algorithms for optical networks.
Content
1. The big picture; 2. The layered architecture and its resources; 3. Network connections; 4. Enabling technology; 5. Static multipoint networks; 6. Wavelength/waveband routed networks; 7. Logically routed networks; 8. Survivability: protection and restoration; 9. Optical control plane; 10. Optical packet switched networks; 11. Current trends in multiwavelength optical networking; Appendices: A. Graph theory; B. Fixed scheduling algorithm; C. Markov chains and queues; D. A limiting-cut heuristic; E. An algorithm for minimum-interference routing in linear lightwave networks; F. Synopsis of the SONET standard; G. A looping algorithm.