Photonic slot routing in optical transport networks

著者

    • Wedzinga, Gosse

書誌事項

Photonic slot routing in optical transport networks

Gosse Wedzinga

(Broadband networks and services)

Kluwer Academic, c2003

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注記

Includes bibliographical references and index

内容説明・目次

内容説明

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.

目次

Preface. Dedication. Acknowledgements. 1: Introduction. 1.1. Transport Networks Based on Photonic Slot Routing. 1.2. Research Aims and Restrictions. 1.3. Related Work. 1.4. Outline of this Book. 2: Basic Photonic Slot Routing Architecture. 2.1. Photonic Slot Routing Concept. 2.2. Architecture Definition. 2.3. Enabling Technologies. 2.4. Architecture Assessment. 2.5. Operational Limitations. 2.6. Summary and Conclusions. 3: Performance of Basic-PSR Networks. 3.1. Passive Link Set. 3.2. Problem Definition. 3.3. Problem Complexity. 3.4. B-PSR Frame Construction Algorithm. 3.5. Performance Analysis. 3.6. Summary and Conclusions. 4: Upgradable Photonic Slot Routing Architecture. 4.1. Architecture Definition. 4.2. Passive Link Set Revised. 4.3. Problem definition. 4.4. U-PSR Frame Construction Algorithm. 4.5. Performance Analysis. 4.6. Summary and Conclusions. 5: Improved TDM Transmission Frame Construction. 5.1. Integrated U-PSR Frame Construction Algorithm. 5.2. Performance Analysis. 5.3. Comparison of Frame Construction Algorithms. 5.4. Summary and Conclusions. 6: Selection of Wavelength-Sensitive Nodes. 6.1. Problem Definition. 6.2. IWS Node Selection Algorithms. 6.3. Performance Analysis. 6.4. Summary and Conclusions. 7: Variations of PSR-Based Architectures. 7.1. Scalable-PSR Architecture Definition. 7.2. Dynamic-PSR Architecture Definition. 7.3. Performance Analysis of Dynamic-PSR Networks. 7.4. Summary and Conclusions. 8: Conclusion. 8.1. Summary and Conclusions. 8.2. Directions for Further Research. Appendices: A. Crosstalk Power Penalty. B. Relative Confidence Interval. C. Derivations Related to Analysis of Dynamic-PSR Networks. C.1. Error in Approximation of Erlang's Summation. C.2. Local and Remote Transmission Capacities. D. List of Abbreviations. E. List of Symbols. References. Index.

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