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Multi-Wavelength Optical Networks

  • Idelfonso Tafur Monroy
  • Eduward Tangdiongga
Chapter
Part of the The Springer International Series in Engineering and Computer Science book series (SECS, volume 678)

Abstract

This chapter is intended as an introduction to optical networking. Firstly, we analyze the functionality of each of the nodes comprising an all-optical network. The evolution path from present WDM networks towards optical cross-connected networks is also discussed. Secondly, we describe several performance limiting factors in all-optical networks, including optical crosstalk. At this point we have introduced the general context of this book. Finally, a list of suggested literature is also given for the reader who may want a deeper treatment of optical networking.

Keywords

Optical Network Wavelength Division Multiplex Stimulate Raman Scattering Semiconductor Optical Amplifier Wavelength Conversion 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. [1]
    G. Hill et al., “A transport networks layer based on optical networks elements,” IEEE/OSA J. Lightwave Technol., vol. 11, pp. 667–679, May/June 1993.CrossRefGoogle Scholar
  2. [2]
    D. K. Hunter and I. Andonovic, “Approaches to optical internet packet switching,” IEEE Comm. Magazine, vol. 38, pp. 116–122, September 2000.CrossRefGoogle Scholar
  3. [3]
    O. M. van Deventer et al, “Node functionalties and architectures for the optical network layer, results from eurescom p615,” in NOC’97, European Conference on Networks and Optical Communications, (Antwerpen, Belgium), June 1997.Google Scholar
  4. [4]
    K. Mueller et al, “Application of amplitude histograms for quality of service measurements of optical cahnnels and fault identification,” in European Conference on Optical Communications, vol. 1, (Madrid, Spain), pp. 707–708, September 20–24 1998.Google Scholar
  5. [5]
    L. E. Nelson, S. T. Cundiff, and C. R. Giles, “Optical monitoring using data correlation for WDM systems,” IEEE Photon. Technol. Lett, vol. 10, pp. 1030–1032, July 1998.CrossRefGoogle Scholar
  6. [6]
    K. J. Park, S. K. Shin, and Y. C. Chung, “A simple monitoring technique for WDM networks,” in Optical Fiber Communication Conference, pp. 152–154, OSA, technical digest, February 1999.Google Scholar
  7. [7]
    E. Radius et al, “The Bolero project at KPN research,” in 1998IEEE/LEOS Symposium, (Gent, Belgium), pp. 17–20, November 1998.Google Scholar
  8. [8]
    “Optical internetworking forum (oif).” http://www.oiforum.com.
  9. [9]
    I. Shake et al, “Monitoring of optical signal quality using sum-frequency-generation opical smapling,” in Symposium on Optical Fiber measurements, NIST 930, pp. 87–90, National Institute of Standards and technology, 1998.Google Scholar
  10. [10]
    M. Renaud, “Components for advanced wdm networks,” in European Conference on Optical Communications, vol. 3, (Madrid, Spain), pp. 33–37, September 20–24 1998.Google Scholar
  11. [11]
    C. G. P. Herben et al., “A compact integrated InP-based single-phasar optical crosscon-nect,” IEEE Photon. Technol. Lett., vol. 10, pp. 678–680, May 1998.CrossRefGoogle Scholar
  12. [12]
    M. S. Borella et al, “Optical components for WDM lightwave networks,” Proc. IEEE, vol. 85, no. 5, pp. 1274–1307, 1997.CrossRefGoogle Scholar
  13. [13]
    J. Buus, “Tunable laser diodes,” in Photonic Networks (G. Prati, ed.), pp. 91–102, London, UK: Springer, 1997.CrossRefGoogle Scholar
  14. [14]
    M. Zirngibl, “Multifrequency lasers and applications in WDM networks,” IEEE Comm. Magazine, pp. 39–41, December 1998.Google Scholar
  15. [15]
    E. R. M. Taylor et al, “A 1300nm nd3+-doped glass amplfier,” in European Conference on Optical Communications, vol. 1, (Madrid, Spain), pp. 45–46, September 20–24 1998.Google Scholar
  16. [16]
    D. Francis, S. Dijaili, and J. Walker, “A Single Chip Linear Optical Amplifier,” in Proc. Optical Fiber Comm. Conf. (OFC200I), vol. PD, pp. 13.1–13.3, Anaheim-USA, Mar. 2001.Google Scholar
  17. [17]
    J. G. L. Jennen et al, “4x10 Gbit/s NRZ transmission in the 1310nm window over 80km of standad single mode fiber unsing semiconductor optical amplifiers,” in European Conference on Optical Communications, vol. 1, (Madrid, Spain), pp. 235–236, September 20–24 1998.Google Scholar
  18. [18]
    M. K. Smit and C. Van Dam, “Phasar-based WDM-devices:prnciples, design and applications,” IEEE J. of Selected Topics in Quantum Electronics, vol. 2, pp. 237–250, June 1996.CrossRefGoogle Scholar
  19. [19]
    S. Turley, “Technolgy choices abound for the optical network,” Lighwave, pp. 51–60, February 1998.Google Scholar
  20. [20]
    E. Oilier and P. Mottier, “Low voltage wavelentgh and polarization independent micro-opto-mechanical switch integrated on silicon,” in Photonics in Switching, vol. 10 of Technical Digest Series, (Stockholm, Sweden), OSA, April 2–4 1997.Google Scholar
  21. [21]
    R. Dangel and W. Lukosz, “Electro-nanonomechanically activated integrated-optical in-terferometric switches,” in Photonics in Switching, vol. 10 of Technical Digest Series, (Stockholm, Sweden), OSA, April 2–4 1997.Google Scholar
  22. [22]
    T.-W. Yeow, K. L. W. Law, and A. Goldenberg, “MEMS Optical Switches,” IEEE Comm. Magazine, pp. 158–163, November 2001.Google Scholar
  23. [23]
    M. Gustavsson, “Technologies and applications for space-switching in multi-wavelenght networks,” in Photonic Networks (G. Prati, ed.), pp. 154–171, London, UK: Springer, 1997.Google Scholar
  24. [24]
    K. E. Stubkjaer et al., “Wavelength conversion technolgy,” in Photonic Networks (G. Prati, ed.), pp. 103–117, London, UK: Springer, 1997.CrossRefGoogle Scholar
  25. [25]
    H. Yoshimura, K. Sato, and N. Takachio, “Future photonic transport networks based on WDM technologies,” IEEE Comm. Magazine, pp. 74–81, February 1999.Google Scholar
  26. [26]
    E. Iannone, F. Matera, M. A., and M. Settembre, Nonlinear Optical Communication Networks. Microwave and optical engineering, John Wiley & Sons, Inc., 1998.Google Scholar
  27. [27]
    D. M. Spirit and M. J. O’Mahony, eds., High Capacity Optical Transmission Explained. John Wiley & Sons, 1995.Google Scholar
  28. [28]
    F. Heismann, “Polarization mode dispersion: funadamnetals and impact on optical communication systems,” in European Conference on Optical Communications, vol. 2, (Madrid, Spain), pp. 51–79, September 20–24 1998.Google Scholar
  29. [29]
    Y. Fukada, T. Imai, and A. Mamoru, “BER fluctuation suppresion in optical in-line amplifier systems using polarisation scrambling technique,” Elec. Lett., vol. 30, pp. 432–433, 1994.CrossRefGoogle Scholar
  30. [30]
    D. R. Lutz, “A passive depolariser,” IEEE Photon. Technol. Lett., vol. 4, pp. 463–465, 1993.CrossRefGoogle Scholar
  31. [31]
    E. A. Golovchenko, V. J. Mazurczyk, and S. M. Abbot, “Implementing optical noise loading to estimate margin in WDM systems,” in Optical Fiber Communication Conference, pp. 335–337, OSA, technical digest, February 1999.Google Scholar
  32. [32]
    G. Einarsson, Principles of Lightwave Communications. Chichester: John & Wiley, 1996. ISBN 0–471–95298–2.Google Scholar
  33. [33]
    G. Keiser, Optical Fiber Communications. McGraw-Hill, third ed.Google Scholar
  34. [34]
    G. P. Agrawal, Fiber Optic communication systems. Wiley-Interscience, 1997.Google Scholar
  35. [35]
    P. E. Green, Fiber Optic Networks. Prentice Hall, 1993.Google Scholar
  36. [36]
    R. Ramaswami and K. N. Sivarajan, Optical Networks, a practical perspective. Morgan Kaufmann Publ., 1998.Google Scholar
  37. [37]
    IEEE/OSA J. Lightwave Technol, vol. 14 of Special Issue on Multiwavelength Optical Technology and Networks. IEEE/OSA, June 1996.Google Scholar
  38. [38]
    G. Prati, ed., Photonic Networks. London: Springer, 1997.Google Scholar
  39. [39]
    IEEE J. Quantum Electronics, vol. 34 of Feature Issue on Funadamental Challengages in Ultrahigh-Capacity Optical Fiber Communication Systems and Networks. IEEE, November 1998.Google Scholar
  40. [40]
    IEEE Communications Magazine. No. 2 on Optical Networks, Communications Systems, and Devices, IEEE, February 1999.Google Scholar

Copyright information

© Springer Science+Business Media New York 2002

Authors and Affiliations

  • Idelfonso Tafur Monroy
    • 1
  • Eduward Tangdiongga
    • 1
  1. 1.COBRA InstituteEindhoven University of TechnologyThe Netherlands

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