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HKUST Call Number: Thesis ELEC 2002 YuW.
X, 58 leaves : ill. ; 30 cm.
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. 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. 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. This work will be of particular interest to researchers and professionals who are active in photonic networking.
Photonics in Switching provides a broad, balanced overview of the use of optics or photonics in switching, from materials and devices to system architecture. The chapters, each written by an expert in the field, survey the key technologies, setting them in context and highlighting their benefits and possible applications. This book is a valuable resource for those working in the communications industry, either at the professional or student level, who do not have extensive background knowledge or the underlying physics of the technology.
Electrical Engineering Photonic Switching Technology Systems and Networks Find out how today’s photonic switching technologies can provide a functional advantage in handling the ever-increasing data rates and bandwidth requirements placed on telecommunication components, systems, and networks with this self-contained, tutorial guide. Based on systems currently in use, Photonic Switching Technology: Systems and Networks will equip practitioners and researchers with a comprehensive understanding of the functionality and versatility provided by photonics technologies used in all-optical networks weighed against their costs and limitations. The authors feature special coverage of state-of-the-art pilot systems that use photonic switching and multiwavelength techniques, such as Monet, Lambdanet, Cobra, and Starnet. These systems not only demonstrate the feasibility of optical systems, but also the implications of system integration, supporting technologies, and system economics. Photonic Switching Technology brings you a wealth of information on Photonic switches based on the electro-optic effect, switches based on semiconductor optical amplifiers (SOA), and optical memory switches Free space optical switching Wavelength division switching, including wavelength routing, wavelength conversion, and WDM packet switching Optical crossconnects
Surveys recent advances in combinatorial properties of switching fabrics Written by an expert in the area of switching fabrics
This book provides a comprehensive synthesis of the theory and practice of photonic devices for networks-on-chip. It outlines the issues in designing photonic network-on-chip architectures for future many-core high performance chip multiprocessors. The discussion is built from the bottom up: starting with the design and implementation of key photonic devices and building blocks, reviewing networking and network-on-chip theory and existing research, and finishing with describing various architectures, their characteristics, and the impact they will have on a computing system. After acquainting the reader with all the issues in the design space, the discussion concludes with design automation techniques, supplemented by provided software.
The first topical meeting on Photonic Switching was held March 18-20, 1987 in Incline Village, Nev., USA in conjunction with the second topical meeting on Optical Computing. It was sponsored by the IEEE Lasers and Electro-Optics Society and the Optical Society of America with the co operation of the IEEE Communications Society. The attendance at these meetings was well in excess of 500 persons - a measure of the growing worldwide interest in optical techniques for switching and signal process ing. Our goal in organizing the Photonic Switching meeting was to provide a forum for the presentation of original papers on the subjects of devices and architectures suitable for switching, multiplexing or routing of optical signals. The purpose of the meeting was to foster and enhance interaction between two groups that share a common interest in exploring possible applications of photonic switching technology: people working on optical switching devices and components, and people working on future switching systems and networks.