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Photonic Slot Routing in Optical Transport Networks /

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All-optical networking is generally believed to be the only solution for coping with the ever-increasing demands in bandwidth, such as the World Wide Web application. <br/> Optical backbone networks efficiently achieve a high level of traffic aggregation by multiplexing numerous users on circu...

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Bibliographic Details
Main Author: Wedzinga, Gosse
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: Boston, MA : Springer US : Imprint : Springer, 2003.
Series:Broadband networks and services ; 4.
Subjects:
Time division multiple access.
Optical communications.
Fiber optics.
Electronic books.
Online Access:Connect to the full text of this electronic book
Description
Summary:All-optical networking is generally believed to be the only solution for coping with the ever-increasing demands in bandwidth, such as the World Wide Web application. <br/> Optical backbone networks efficiently achieve a high level of traffic aggregation by multiplexing numerous users on circuit-switched wavelength paths - the so-called wavelength routing approach. In contrast, the reduced level of traffic aggregation in access and metro networks makes wavelength routing solutions not adequate. In these network areas, packet-interleaved optical time-division multiplexing with its finer and more dynamic bandwidth allocation is advocated. <br/> The book presents such an approach, known as photonic slot routing. It illustrates how this approach may provide a cost-effective solution to deploying all-optical transport networks, using today's optical device technology. To that end, the author combines DWDM-technology with fixed slot optical switching, and gives a comprehensive description of this approach in which slots are aligned across the wavelengths to form groups of data-flows that propagate as a whole inside the network. Operating algorithms are developed, and network performance is analyzed, both by means of theoretical analysis and many simulations of sample networks. <br/> This work will be of particular interest to researchers and professionals who are active in photonic networking.
Item Description:Electronic resource.
Physical Description:1 online resource (222 pages)
ISBN:9781461503170 (electronic bk.)
1461503175 (electronic bk.)