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Optical Networks Magazine, Volume 3, Number 6

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References

  1. V. Paxson and S. Floyd, "Wide Area Traffic: The Failure of Poisson Modeling," IEEE/ACM Trans. Networking3, pp. 226-244, 1995.

  2. V. Paxson, "Towards a Framework for Defining Internet Performance Metrics," in Proc. INET '96, Montreal, 1996.

  3. R. Jain, S. Routhier, "Packet Trains: Measurements and a New Model for Computer Network Traffic," IEEE J. Select. Areas Commun.4, pp. 1162-1167, 1986.

    Google Scholar 

  4. T. W. Chung et al., "Architectural and Engineering Issues for Building an Optical Internet," http:// www.canet2.net/c3/architectural.pdf

  5. Chlamtac, A. Ganz, and G. karmi, "Lightpath Communications: An Approach to High Bandwidth Optical WAN's," IEEE Trans. Commun., 40, pp. 1171-1182, 1992.

    Google Scholar 

  6. C. Qiao, and M. Yoo "Optical Burst Switching (OBS): A New Paradigm for an Optical Internet," J. High Speed Networks, 8, pp. 69-84, 1999.

    Google Scholar 

  7. Chaskar et al., "A Framework to Support IP over WDM Using Optical Burst Switching," Wksp. Opt. Networking, Dallas, 2000.

  8. J. S. Turner, "Terabit Burst Switching," http://www. arl.wustl.edu/_jst/ projects/TerabitBurst.html

  9. R. Ramaswami and K. N. Sivarajan, Optical Networks A Practical Perspective, Morgan Kaufmann, San Francisco, 1998.

  10. F. Masetti, et al., "Fiber Delay Lines Optical Buffer for ATMPhotonic Switching Applications," in Proc. INFOCOM'93, pp. 935-942, San Francisco, 1993.

  11. E. Karasan and E. Ayanoglu, "Effects of Wavelength Routing and Selection Algorithms on Wavelength Conversion Gain in WDM Optical Networks," IEEE/ACM Trans. Networking, 6, pp. 186-196, 1998.

  12. Kovacevic and A. Acampora, "On Wavelength Translation in All-optical Networks," in Proc. INFOCOM' 95, pp. 413-422, Boston, 1995.

    Google Scholar 

  13. S. Subramaniam and R. Barry, "Wavelength Assignment in Fixed Routing WDM Networks," in Proc. ICC'97, pp. 406-415, Montreal, 1997.

  14. J. M. H. Elmirghani and H. T. Mouftah, "All-Optical Wavelength Conversion Technologies and Applications in DWDM Networks," IEEE Commun. Mag., pp. 86-92, Mar. 2000.

  15. R. Ramaswami, K. N. Sivarajan, "Routing and Wavelength Assignment in All-Optical Networks," IEEE/ACM Trans. Networking, 3, pp. 489-500, 1995.

    Google Scholar 

  16. Birman, A. Kershenbaum, "Routing and Wavelength Assignment Methods in Single-Hop All-Optical Networks with Blocking," in Proc. INFOCOM' 95, pp. 431-438, 1995.

  17. T. Kato, et al., "10Gb/s Photonic Cell Switching with Hybrid 4 _ 4 Optical Matrix Switch Module on Silrca based Planar Waveguide Platform," in Proc. OFC'98, post deadline paper, San Jose, 1998.

  18. M. Yoo, C. Qiao and S. Dixit, "A comparative study of contention resolution policies in optical burst switched WDM networks," Conf. on Terabit Optical Networking: Architecture, Control and Management Issues, SPIE Vol. 4213, pp. 124-135, Boston, MA, Nov. 2000.

    Google Scholar 

  19. D. J. Blumenthal, et al., "Photonic Packet Switches: Architecture and Experimental Implementations," Proc of the IEEE82, pp. 1650-1667, 1994.

    Google Scholar 

  20. Jae-Hyun Park, et al., "The Deflection Self-Routing Banyan Network: A Large-Scale ATM Switch Using the Adaptive Self-Routing and its Performance Analyses," IEEE/ACMTrans.Networking7, pp. 588-604, 1999.

    Google Scholar 

  21. E. A. Varvarigos, et al., "A Virtual Circuit Deflection Protocol," IEEE/ACM Trans. Networking7, pp. 335-349, 1999.

    Google Scholar 

Optical switching of IP traffic using input buffered architectures

  1. Bregni, S., Guerra, G., Pattavina, A.:Optical packet switching for IP-over-WDM transport networks, Proc. of 2001 Int. Workshop on Digital Commun., Taormina, Sept. 2001, pp. 10-25.

  2. Yoo, M., Qiao, C.: Just-Enough-Time(JET): AHigh Speed Protocol for Bursty Traffic in Optical Networks. Proc. IEEE/LEOS Tech. for a Global Info. Infrastructure (Aug. 1997) 26-27.

  3. Qiao, C.: Labeled Optical Burst Switching for IPover-WDM Integration. IEEE Commun. Mag. (Sep. 2000) 104-114.

  4. Renaud, M., Masetti, F., Guillemot, C., Bostica, B.: Network and System Concepts for Optical Packet Switching. IEEE Commun. Mag. (Apr. 1997) 96-102.

  5. Hunter, D. K. et al.: WASPNET: A Wavelength Switched Packet Network. IEEE Commun. Mag. (Mar. 1999) 120-129.

  6. Dorgeuille, F., Mersali, B., Feuillade, M., Sainson, S., Slempkès, S., Foucher, M.: Novel Approach for Simple Fabrication of High-Performance InPSwitch Matrix Based on Laser-Amplifier Gates. IEEE Photon. Technol. Lett., Vol. 8. (1996) 1178-1180.

    Google Scholar 

  7. Tzanakaki, A., O'Mahony, M.J.: Analysis of Tunable Wavelength Converters Based on Cross-Gain Modulation in Semiconductor Optical Amplifiers Operating in the Counter Propagating Mode. IEE Proc.-Optoelectron., Vol. 147., No.1, (Feb. 2000) 49-55.

    Google Scholar 

  8. Mak, M. W. K., Tsang, H. K.: Polarisation-insensitive Widely Tunable Wavelength Converter Using a Single Semiconductor Optical Amplifier. IEEE Electron. Lett., Vol. 36. (2000) 152-153.

    Google Scholar 

  9. Tzanakaki, A. et al.: Penalty-Free Wavelength Conversion Using Cross-Gain Modulation in Semiconductor Laser Amplifiers with no Output Filter. Elec. Lett., Vol. 33. (1997) 1554-1556.

    Google Scholar 

  10. Parker, C., Walker, S. D.: Design of Arrayed-Waveguide Gratings Using Hybrid Fourier-Fresnel Transform Techniques. IEEE J. Selec. Topics Quant. Electron., Vol. 5. (1999) 1379-1384.

    Google Scholar 

  11. Thompson, K., Miller, G. J., Wilder, R.: Wide-area Internet Traffic Patterns and Characteristics. IEEE Network, Vol 11. (1997) 10-23.

    Google Scholar 

  12. Generating the Internet Traffic Mix Using a Multi-Modal Length Generator. Spirent Communications white paper. http://www.netcomsystems.com

All-optical switching for high bandwidth optical networks

  1. R. Ramaswami and K. N. Sivarajan, Optical Networks, Morgan Kaufmann, San Francisco, 1998.

  2. V. W. S. Chan, K. L. Hall, E. Modiano, and K.A. Rauschenbach, "Architectures and technologies for high speed optical data networks", IEEE J. Lightwave Technol. vol. 16, pp. 2146-2168, 1998.

    Google Scholar 

  3. I. Chlamtac, A. Ganz, and G. Karmi, "Lightpath routing in the Lightnet architecture", in Proceedings of the IFIP WG 6.1/WG 6.4 Second International Workshop, pp. 91-103, Palo Alto, CA, November 1991.

  4. D. C. McCarthy, "Photonic Switches: Fast, but Functional?", Photonics Spectra, pp. 140-150, March 2001.

  5. D. J. G. Mestdagh, Fundamentals of Multiaccess Optical Fiber Networks, Artech House, Boston, 1995.

  6. A. Pattavina, M. Martineli, G. Maier, and P. Boffi, "Techniques and technologies towards all-optical switching", Optical Networks Magazine, vol. 1, pp. 75-93, 2000.

    Google Scholar 

  7. R. Alferness, P. Bonefant, C. Newton, K. Sparks and E. Varma, "A practical vision for optical transport networking", Bell Labs Tech Journal, pp. 3-18, Jan-Mar 1999.

  8. P. Gambini, M. Renaud, et. al. "Transparent optical packet switching: Network architecture and demonstrations in the KEOPS project", IEEE J. Selected Areas in Communications., vol. 16, pp. 1245-1259, September 1998.

    Google Scholar 

  9. M. J. Potasek, "High Bandwidth Optical Networks and Communications" in Photodetectors and Fiber Optics, ed. H. S. Nalwa (Academic Press, New York), Ch. 7, pp. 459-543, 2001

    Google Scholar 

  10. A. Neukermans and R. Ramaswami, "MEM Technology for Optical Networking Applications", IEEE Communications Magazine, pp. 62-69, January 2001.

  11. L. Y. Lin, E. L. Goldstein, and R. W. Tkach, "On the Expandability of Free-Space Micromachined Optical Cross Connects", J. Lightwave Tech, vol. 18, pp.482-488, 2000.

    Google Scholar 

  12. J. D. Evankow and R. A. Thompson, "Photonic Switching Modules Degisned with Laser Diode Amplifiers", IEEE J. Select. Areas Commun. vol. 6, pp. 1087-1095, 1988.

    Google Scholar 

  13. P. Granestrand et. al. "Strictly nonblocking 8 _ 8 integrated optic switch matrix in Ti:LiNbO3", IGWO'86, paper WAA3, 1986.

  14. E. J. Murphy, "Lithium niobate switch arrays for optical cross connects", in OFC'99, paper W28, 1997.

  15. A. Uskov et. al. "Theory of short-gain saturation in semiconductor laser amplifiers", IEEE Photon. Tech. Lett. vol. 4, pp. 443-445, May 1992.

    Google Scholar 

  16. G. Jeong and J. W. Goodman, "Analysis of linear crosstalk in photonic crossbar switches based on on/off gates", IEEE/OSA J. Lightwave Tech., vol. 14, pp. 359-364, March 1996.

    Google Scholar 

  17. L. Gillner, "Small signal modulation of a two-section semiconductor laser amplifier: Pure PM response", IEEE Photon Tech Lett., vol. 3, pp. 445-447, May 1991.

    Google Scholar 

  18. J. M. Wiesenfeld et. al., "Wavelength conversion at 10 Gb/s using a semiconductor optical amplifier", IEEE Photon Tech Lett., vol. 5, pp.1300-1303, November 1993.

    Google Scholar 

  19. M. Ikeda, "Switching characteristics of laser diode switch", IEEE J. Quantum Electron. vol. QE-19, pp.157-164, February 1983.

    Google Scholar 

  20. H. Takeshita et. al., "A demonstration of an optical cross-connect system for a self-healing optical network", in Proc. ECOC'97, vol. 13, pp. 335-338, 1997.

    Google Scholar 

  21. J. Yu, A. Buxens, A. Clausen and P. Jeppesen, "16_10Gb/s WDM Bi-directional gating in a semiconductor optical amplifier for optical cross connects exploiting network connection symmetry", IEEE Photon. Tech Lett., vol. 12, pp. 702-704, 2000.

    Google Scholar 

  22. M. C. Farries and D. N. Payne, Opt. Lett. vol. 14, pp. 754-756, 1989.

    Google Scholar 

  23. J. P. Sokolof, P. R. Prucnal, I. Glesk, and M. Kane, IEEE Photon. Technol. Lett., vol. 5, pp. 787-789, 1993.

    Google Scholar 

  24. K. I. Kang, I. Glesk and P. R. Prucnal, Inter. J. High Speed Electron. and Systems, vol.7, pp. 125-131, 1996.

    Google Scholar 

  25. M. L. Dennis, W. K. Burns, T. F. Carruthers, W. I. Kaechele, and I. N. Duling, "Photonic 100 Gb/s serial-to-parallel converter", OFC '00, paper ThV1.

  26. K. I. Kang, T. G. Chang, I. Glesk, and P. R. Prucnal, Appl. Opt., vol. 35, pp. 417-422, 1996.

    Google Scholar 

  27. K. L. Hall et.al., "100-Gbits/s bitwise logic", Opt. Lett., vol. 23, pp. 1271-1274, 1998.

    Google Scholar 

  28. S. M. Jensen, "Nonlinear directional coupler", IEEE J. Quantum Electron. vol. QE-18, pp.1580-1587, 1982.

    Google Scholar 

  29. R. S. Tasgal and M. J. Potasek, "Soliton Solutions to Coupled Higher Order Nonlinear Schrodinger Equations", J. Math. Phys. vol. 33, pp. 1208-1219, 1992.

    Google Scholar 

  30. M. J. Potasek, "Self-routing of multi-terabit/sec pulses using an all-optical switch in a nonlinear coupler with dispersion flattened fiber", '01OFC, Anaheim, CA, paper WDD95-1, March 17-22, 2001.

  31. M. J. Potasek, "Self Routing Terabit/sec All Optical Switching", Opticomm 2000: Optical Networking and Communications, pp. 23-33, Richardson, TX, Oct. 2000.

  32. T. E. Stern and K. Bala, Multiwavelength Optical Networks, Addison-Wesley, 1999.

  33. C. Qiao and M. Yoo, "Choices, features and issues in optical burst switching", Optical Networks Magazine, vol. 1, pp. 36-44, 2000.

    Google Scholar 

  34. C. Qiao, "Optical burst switching-a new paradigm", in Optical Internet Workshop, 1997.

  35. M. Yoo and C. Qiao, "Optical Burst Switching (OBS): A new paradigm for an optical internet", Journal of High Speed Networks", vol. 8, pp. 69-84, 1999.

    Google Scholar 

  36. B. Li, Y. Qin, X. Cao, and K. Sivalingam, "Photonic packet switching: architectures and performance", Optical NetworksMagazine, vol. 2, pp. 27-39, 2001.

    Google Scholar 

  37. C. Qiao and M. Yoo, "A Taxonomy of Switching Techniques" in Optical WDM Networks, Principles and Practice, Ch. 6, Kluwer Academic Publishers, Boston, MA, 2000.

    Google Scholar 

  38. Y. Xiong, M. Vandenhoute, and H. Cankaya, "Design and Analysis of Optical Burst Switched Networks" in Proc. SPIE '99 Conf. on All Optical Networking, vol. 3843, Boston, MA, pp. 12-19, September 1999.

    Google Scholar 

  39. L. Xu, H. Perros and G. Rouskas, "Techniques for optical packet switching and optical burst switching", IEEE Communications Magazine, pp. 136-142, January 2001.

  40. M. Yoo, C. Qiao, and S. Dixit, "Optical burst switching for service differentiation in the next-generation optical Internet", IEEE Communications Magazine, pp. 98-104, February 2001.

  41. J. S. Turner, "Terabit burst switching", J. High Speed Networks, vol. 8, pp. 3-16, 1999.

    Google Scholar 

  42. B. Davie, P. Doolan, and Y. Rekhter, Switching in IP Networks, Morgan Kaufman, San Francisco, CA, 1998.

    Google Scholar 

  43. S. Yao, B. Mukherjee and A. Dixit, "Advances in Photonic Packet Switching: An Overview", IEEE Communications Magazine, vol. 38, pp. 84-94, 2000.

    Google Scholar 

  44. K. Sivalingham and S. Subramaniam, eds., Optical WDM Networks: Principles and Practice, Boston, MA, Kluwer Academic Publishers, 2000.

    Google Scholar 

  45. A. Jourdan, D. Chiaroni, E. Dotaro, G. Eilenberger, F. Masetti and M. Renaud, "The perspective of optical packet switching in IP-dominant backbone and metropolitan networks", IEEE Communications Magazine, pp. 136-141, March 2001.

  46. M. O'Mahony, D. Simeonidou, D. Hunter, and A. Tzanakaki, "The application of optical packet switching in future communications networks", IEEE Communications Magazine, pp. 128-135, March 2001.

  47. D. Hunter et. al., "SLOB: a switch with large optical buffer for packet-switching", IEEE/OSA J. Lightwave Technol. vol. 16, pp. 1725-1736, 1998.

    Google Scholar 

  48. I. Chlamtac, V. Elek, A. Fumagalli, and C. Szab'o, "Scalable WDM Network Architecture based on Photonic Slot Routing and Switched Delay Lines", IEEE Infocom '97, Kobe, Japan, April 1997.

  49. A. Banerjee, J. Drake, J. Lang, B. Turner, K. Kompella and Y. Rekhter, "Generalized Multiprotocol Label Switching: An overview of routing and management enhancements", IEEE Communications Magazine, pp. 144-150, January 2001.

  50. N. Ghani, "Lambda-labeling: A framework for IPover-WDM using MPLS", Optical Networks Magazine, vol. 1, pp. 45-58, 2000.

    Google Scholar 

  51. M. Renaud et al., "Network and System concepts for optical packet switching", IEEE Commun Mag., vol. 35, pp. 96-102, 1997.

    Google Scholar 

  52. V. E. Benes, Mathematical Theory of Connecting Networks and Telephone Traffic, New York, Academic Press, 1965.

    Google Scholar 

  53. R. A. Spanke, "Architectures for guided-wave optical space switching systems", IEEE Communications, vol. 25, May 1987.

  54. C. Clos, "A study of nonblocking switching networks", Bell System Tech. J. vol. 32, pp. 406-424, 1953.

    Google Scholar 

  55. M. Stern, J. P. Heritage, R. N. Thurstonand and S. Tu, "Self-phase modulation and dispersion in high data rate fiber-optic transmission systems", J. Lightwave Technol, vol. 8, pp. 1009-1016, 1990.

    Google Scholar 

  56. I. Cerutti, A. Fumagalli and M. Potasek, "Effects of chromatic dispersion and self-phase modulation in multi-hop multi-rate WDM Rings", IEEE Photon Tech Lett, vol. 14, pp. 411-413, 2002.

    Google Scholar 

  57. A. Naka and S. Saito, "In-line amplifier transmission distance determined by self-phase modulation and group velocity dispersion", J. Lightwave Technol., vol. 12, pp. 280-287, 1994.

    Google Scholar 

  58. I. Cerutti, A. Fumagalli and M. Potasek, "Chromatic dispersion and self-phase modulation in multi-hop multi-rate WDM rings", Allerton conference on Optical Networks, Allerton, IL, 2001.

  59. A. Hasegawa, ed., Massive WDM and TDM Soliton Transmission Systems, Kluwer Academic Publishers, Dordrecht, The Netherlands, 2000.

    Google Scholar 

  60. G. P. Agrawal, Fiber-Optic Communication Systems, John Wiley, New York, 1997.

    Google Scholar 

  61. J. Stern, "Dispersion Managed Soliton Networks", Lightwave, pp. 274-277, March 2001.

  62. B. Mukherjee et. al., "Light Trees: Optical multicasting for improved performance in wavelength router networks", IEEE Communications Magazine, February 1999.

  63. D. Papadimitriou et. al., "Optical multicasting-A framework", OIF2001.093, April 2001.

  64. R. Appelman, J. Vertman, and J. Goede, "All-optical switches: the evolution of optical functionality", Lightwave, pp. 92-100, November 2001.

Towards efficient packet switching metro WDM networks

  1. P. Green. Progress in optical networking. IEEE Commun. Mag.,39(1):54-61, January 2001.

    Google Scholar 

  2. C. Awduche and Y. Rekhter. Multiprotocol lambda switching: Combining MPLS traffic engineering control with optical crossconnects. IEEE Commun. Mag., 39(3):111-116, March 2001.

    Google Scholar 

  3. A. Fumagalli and L. Valcarenghi. IP restoration vs. WDM protection: Is there an optimal choice? IEEE Network, 14(6):34-41, Nov./Dec. 2000.

    Google Scholar 

  4. R. Doverspike and J. Yates. Challenges for MPLS in optical network restoration. IEEE Commun. Mag., 39(2):89-96, February 2001.

    Google Scholar 

  5. J. Y. Wei, C. Liu, K. H. Liu, J. L. Pastor, and et al. IP over WDM network traffic engineering demonstration and experimentation. In OFC 2001, postdeadline paper PD33, Anaheim, CA, March 2001.

  6. S. Verma, H. Chaskar, and R. Ravikanth. Optical Burst Switching: A viable solution for Terabit IP backbone. IEEE Network, 14(6):48-53, Nov./Dec. 2000.

    Google Scholar 

  7. M. Yoo, C. Qiao, and S. Dixit. QoS performance of Optical Burst Switching in IP-over-WDM networks. IEEE J. on Sel. Areas in Commun., 18(10): 2062-2071, October 2000.

    Google Scholar 

  8. M. Yoo, C. Qiao, and S. Dixit. Optical Burst Switching for service differentiation in the nextgeneration optical internet. IEEE Commun. Mag., 39(2):98-104, Feb. 2001.

    Google Scholar 

  9. A. Jourdan, D. Chiaroni, E. Dotaro, G. J. Eilenberger, and et al. The perspective of optical packet switching in IP-dominant backbone and metropolitan networks. IEEE Commun. Mag.,39(3):136-141, March 2001.

    Google Scholar 

  10. M. J. O'Mahony, D. Simeonidou, D. K. Hunter, and A. Tzanakaki. The application of optical packet switching in future communication networks. IEEE Commun. Mag., 39(3):128-135, March 2001.

    Google Scholar 

  11. S. Yao, S. J. B. Yoo, and B. Mukherjee. All-optical packet switching for metropolitan area networks: Opportunities and challenges. IEEE Commun.Mag., 39(3):142-148, March 2001.

    Google Scholar 

  12. D. Stoll, P. Leisching, H. Bock, and A. Richter. Metropolitan DWDM: A dynamically configurable ring for the KomNet field trial in Berlin. IEEE Commun. Mag.,39(2):106-113, February 2001.

    Google Scholar 

  13. K. V. Shrikhande, I. M. White, D. Wonglumsom, S. M. Gemelos, and et al. HORNET: A packetover-WDM multiple access metropolitan area ring network. IEEE J. on Sel. Areas in Commun.,18(10): 2004-2016, October 2000.

  14. F. Ruehl and T. Anderson. Cost-effective metro WDM network architectures. In OFC 2001 Technical Digest, paper WL1, Anaheim, CA, March 2001.

  15. K. Kato, A. Okada, Y. Sakai, and K. Noguchi et al. 10-Tbps full-mesh WDM network based on cyclicfrequency arrayed-waveguide grating router. In OC 2000, volume 1, pages 105-107, Munich, Germany, September 2000.

    Google Scholar 

  16. A. Okada, T. Sakamoto, Y. Sakai, and K. Noguchi et al. All-optical packet routing by an out-of-band optical label and wavelength conversion in a fullmesh network based on a cyclic-frequency AWG. In OFC 2001. Technical Digest, paper ThG5, Anaheim, CA, March 2001.

  17. A. Borella, G. Cancellieri, and F. Chiaraluce. Wavelength Division Multiple Access Optical Networks. Artech House, 1998.

  18. K. M. Sivalingam and S. Subramaniam, editors. Optical WDM Networks-Principles and Practice, Chapter 7. Kluwer Academic Publishers, 2000.

  19. B. Mukherjee. WDM-based local Lightwave networks part I: Single-hop systems. IEEE Network, 6(3):12-27, May 1992.

    Google Scholar 

  20. I. Chlamtac and A. Ganz. Channel allocation protocols in frequency-time controlled high-speed networks. IEEE Trans. on Commun.,36(4):430-440, April 1988.

    Google Scholar 

  21. A. Ganz and Y. Gao. A time-wavelength assignment algorithm for aWDMstar network. In EE INFOCOM '92, pages 2144-2150, Florence, Italy, May 1992.

  22. A. Ganz and Y. Gao. Time-wavelength assignment algorithms for high performance WDM star based systems. IEEE Trans. on Commun.,42(2/3/4):1827-1836, Feb./March/April 1994.

    Google Scholar 

  23. A. Ganz and Y. Gao. Traffic scheduling in multiple WDM star systems. In EE ICC '92, pages 1468-1472, Chicago, IL, 1992.

  24. P. W. Dowd. Random access protocols for highspeed interprocessor communication based on an optical passive star topology. IEEE/OSA J. of Lightwave Technol., 9(6):799-808, June 1991.

    Google Scholar 

  25. I. M. I. Habbab, M. Kavehrad, and C.-E. W. Sundberg. Protocols for very high-speed optical fiber local area networks using a passive star topology. IEEE/OSA J. of Lightwave Technol.,LT-5(12): 1782-1794, April 1987.

    Google Scholar 

  26. N. Mehravari. Performance and protocol improvements for very high speed optical fiber local area networks using a passive star topology. IEEE/OSA J. of Lightwave Technol.,8(4):520-530, April 1990.

    Google Scholar 

  27. A. Ganz and Z. Koren. WDM passive star-protocols and performance analysis. In IEEE INFOCOM '91, pages 991-1000, Bal Harbor, FL, April 1991.

  28. M. J. Karol and B. Glance. A collision-avoidance WDM optical star network. Computer Networks and ISDN Systems, 26:931-943, March 1994.

    Google Scholar 

  29. H. Shi and M. Kahverad. ALOHA/Slotted-CSMA protocol for a very high-speed optical fiber local area network using passive star topology. In IEEE INFOCOM '91, pages 1510-1515, Bal Harbor, FL, April 1991.

  30. H. W. Lee. Protocols for multichannel optical fibre LAN using passive star topology. Electronics Letters 27(17):1506-1507, August 1991.

    Google Scholar 

  31. G. N. M. Sudhakar, N. D. Georganas, and M. Kavehrad. Slotted Aloha and Reservation Aloha protocols for very high-speed optical fiber local area networks using passive star topology. IEEE/OSA J. of Lightwave Technol.,9(10):1411-1422, October 1991.

    Google Scholar 

  32. G. N. M. Sudhakar, M. Kavehrad, and N. D. Georganas. Multi-control channel very high-speed optical fiber local area networks and their interconnection using a passive star topology. In IEEE GLOBECOM '91, pages 624-628, Phoenix, AZ, December 1991.

  33. F. Jia and B. Mukherjee. Bimodal throughput, nonmonotonic delay, optimal bandwidth dimensioning, and analysis of receiver collisions in a singlehop WDM local Lightwave network. In IEEE GLOBECOM '92, pages 1896-1900, Orlando, FL, December 1992.

  34. M. Chen and T.-S. Yum. A conflict-free protocol for optical WDMA networks. In EE GLOBECOM '91, pages 1276-1281, Phoenix, AZ, December 1991.

  35. M. Chen and T.-S. Yum. Buffer sharing in conflictfree WDMA networks. IEICE Trans. on Commun.,E77-B(9):1144-1151, September 1994.

    Google Scholar 

  36. H. B. Jeon and C. K. Un. Contention-based reservation protocol in fibre optic local area network with passive star topology. Electronics Letters 26(12): 780-781, June 1990.

    Google Scholar 

  37. H. B. Jeon and C. K. Un. Contention-based reservation protocols in multiwavelength optical networks with a passive star topology. IEEE Trans. on Commun., 43(11):2794-2802, November 1995.

    Google Scholar 

  38. J. H. Lee and C. K. Un. Dynamic scheduling protocol for variable-sized messages in a WDM-based local network. IEEE/OSA J. of Lightwave Technol.,14(7):1595-1600, July 1996.

    Google Scholar 

  39. H. S. Kim, B. C. Shin, J. H. Lee, and C. K. Un. Performance evaluation of reservation protocol with priority control for single-hop WDM networks. Electronics Letters 31(17):1472-1473, August 1995.

    Google Scholar 

  40. F. Jia and B. Mukherjee. The receiver collision avoidance (RCA) protocol for a single-hop WDM Lightwave network. IEEE/OSA J. of Lightwave Technol.,11(5/6):1053-1065, May/June 1993.

    Google Scholar 

  41. F. Jia and B. Mukherjee. Performance analysis of a generalized receiver collision avoidance (RCA) protocol for single-hop WDM local Lightwave networks. In Proc., SPIE '92,pages 229-240, Boston, MA, September 1992.

  42. F. Jia and B. Mukherjee. A high-capacity, packetswitched, single-hop local Lightwave network. In IEEE GLOBECOM '93, pages 1110-1114, Houston, TX, December 1993.

  43. G. I. Papadimitriou and D. G. Maritsas. Learning automata-based receiver conflict avoidance algorithms for WDM broadcast-and-select star networks. IEEE/ACM Trans. on Networking,4(3):407-412, June 1996.

    Google Scholar 

  44. G. I. Papadimitriou and D. G. Maritsas. Self-adaptive random-access protocols for WDM passive star networks. IEE Proc.-Comput. Digit. Tech.,142(4): 306-312, July 1995.

    Google Scholar 

  45. R. Chipalkatti, Z. Zhang, and A. S. Acampora. Protocols for optical star-coupler network using WDM: Performance and complexity study. IEEE J. on Sel. Areas in Commun.,11(4):579-589, May 1993.

    Google Scholar 

  46. K. Bogineni and P. W. Dowd. A collisionless multiple access protocol for a wavelength division multiplexed star-coupled configuration: Architecture and performance analysis. IEEE/OSA J. of Lightwave Technol., 10(11):1688-1699, November 1992.

    Google Scholar 

  47. K. M. Sivalingam and P. W. Dowd. A multilevel WDM access protocol for an optically interconnected multiprocessor system. IEEE/OSA J. of Lightwave Technol.,13(11):2152-2167, November 1995.

    Google Scholar 

  48. K. M. Sivalingam and J. Wang. Media access protocols for WDM networks with on-line scheduling. IEEE/OSA J. of Lightwave Technol.,14(6):1278-1286, June 1996.

    Google Scholar 

  49. M. Kova?cevi´c and M. Gerla. Analysis of a T/WDMA scheme with subframe tuning. In IEEE ICC '93, pages 1239-1244, Geneva, Switzerland, May 1993.

  50. M. Kova?cevi´c and M. Gerla. Time and wavelength division multiaccess with acoustooptic tunable filters. Fiber and Integrated Optics, 12:113-132, November 1992.

    Google Scholar 

  51. J. H. Laarhuis and A. M. J. Koonen. An efficient medium access control strategy for high-speed WDM multiaccess networks. IEEE/OSA J. of Lightwave Technol., 11(5/6):1078-1087, May/June 1993.

    Google Scholar 

  52. F. Jia, B. Mukherjee, and J. Iness. Scheduling variable-length messages in a single-hop multichannel local lightwave network. IEEE/ACM Trans. on Networking, 3(4):477-488, August 1995.

    Google Scholar 

  53. A. Mokhtar and M. Azizoglu. Hybrid multiaccess for all-optical LANs with nonzero tuning delays. In EE ICC '95, pages 1272-1276, Seattle, WA, June 1995.

  54. K. M. Sivalingam and S. Subramaniam, editors. Optical WDM Networks-Principles and Practice Chapter 9. Kluwer Academic Publishers, 2000.

  55. M. Maier and A. Wolisz. Single-hop WDM network with high spectrum reuse based on an arrayed waveguide grating. In Optical Network Workshop, University of Dallas, TX, Jan./Feb. 2000.

  56. L. Giehmann, A. Gladisch, N. Hanik, and et al. The application of code division multiple access for transport overhead information in transparent optical networks. In OFC 1998 Technical Digest, paper WM42, pages 228-229, San Jose, CA, February 1998.

  57. M. Maier, M. Reisslein, and A. Wolisz. High-performance switchless WDM network using multiple free spectral ranges of an arrayed-waveguide grating. In Terabit Optical Networking: Architecture, Control and Management Issues, Part of SPIE Photonics East 2000, volume 4213, pages 101-112, Boston, MA,November 2000.

    Google Scholar 

Novel label processing schemes for MPLS

  1. Andersson, L., et. al., "LDP Specification", Internet draft, draft-ietf-mpls-ldp-08.txt, work in progress, June 2000.

  2. Rekhter, Y., "CIDR and Classful Routing", Request for comment (RFC) 1817, August 1995.

  3. Rekhter,Y.,"Carrying Label Information in BGP-4", Internet Draft, draft-ietf-mpls-bgp4-mpls-04.txt, work in progress, January 2000.

  4. Rosen, E. C. et al, "Multiprotocol Label Switching architecture", Internet draft draft-ietf-mpls-arch-06.txt, work in progress, August 1999.

  5. Rosen, E. C: et al, "MPLS Label Stack Encoding", Internet draft draft-ietf-mpls-label-encaps-07.txt, work in progress, September 1999.

  6. Jamoussi, B., et. al., "Constraint-Based LSP Setup using LDP", Internet draft, draft-ietf-mpls-cr-ldp-03.txt, work in progress, September 1999.

  7. Moy, J., "OSPF version 2", Request for comment (RFC) 2328, April 1998.

  8. Braden, R., et al, "Resource ReSerVation Protocol (RSVP)-Version 1 Functional Specification", RFC 2205, September 1997.

  9. Malkin, G., "RIP version 2", RFC 2453, November 1998.

  10. Aweya, J., "On the design of IP routers. Part 1: Router architectures", Journal of Systems Architecture, vol. 46 (2000) pp. 483-511.

    Google Scholar 

  11. Ghani, Nashi, "Lambda-labeling: A framework for IP-Over-WDM Using MPLS", Optical networks volume 1 #2, April 2000.

  12. Crawley, E. et al., " A Framework for QoS-based Routing in the Internet", Request for comment (RFC), 2386, August 1998.

  13. Wessing, H., Fjelde,T., Christiansen, H., Dittmann, L., "Novel scheme for efficient and cost-effective forwarding of packets in optical networks without header modification", Proceedings of OFC 2001, paper ThG4_1, Anaheim, 2001.

  14. Rivest, R. L., Cormen, T. H., Leiserson, C. E., "Introduction to Algorithms", MIT Press, 1990.

  15. Erramilli, A. et al, "Experimental Queueing analysis with long-range dependent packet traffic", IEEE/ ACM transactions on Networking, vol. 4 #2, April 1996.

  16. Blumenthal, D. J., Carena, A., Rau, L., Curri,V. and Humphries, S., "All-Optical Label Swapping with Wavelength Conversion for WDM-IP Networks with SubcarrierMultiplexed Addressing", Photonics Technology Letters,Vol. 11,No. 11, pp. 1497-1499, 1999.

    Google Scholar 

  17. Olsson, B.E., Öhlén, P., Rau, L., Rossi, G., Jerphagnon, O., Doshi, R., Humphries, D.S., Blumenthal, D.J., Kaman, V. and Bowers, J.E., "Wavelength Routing of 40 Gbit/s Packets with 2.5 Gbit/sHeader Erasure/Rewriting using an All-Fiber Wavelength Converter", In Proceedings of ECOC'99, Post-deadline paper PD3-4, pp. 52-53,Nice, France, 1999.

  18. Danielsen, S. L., Mikkelsen, B., Joergensen, C., Durhuus, T. and Stubkjaer, K. E., "WDM Packet Switch Architectures and Analysis of the Influence of Tuneable Wavelength Converters on the Performance", Journal of Lightwave Technology, Vol. 15, No. 2, pp. 219-226, 1997.

    Google Scholar 

  19. Fjelde, T., Kloch, A., Wolfson, D., Janz, C., Coquelin, A., Guillemot, I., Gaborit, F., Poingt, F., Dagens, F., and Renaud, M., "20 Gbit/s all-optical logic XOR using integrated interferometric wavelength converter", InTechnicalDigest ofOAA2000, paper OWB4, pp. 189-191, Quebec City, Canada, 2000.

  20. Fjelde, T., Kloch, A., Wolfson, D., Janz, C., Coquelin, A., Guillemot, I., Gaborit, F., Poingt, F., Dagens, F., and Renaud, M., "Novel scheme for ef-ficient label-swapping using simple XOR gate", Proceedings of ECOC 2000, Vol. 4, paper 10.4.2, pp. 63-64, Munich, Germany, 2000.

    Google Scholar 

  21. Arkut, I. C:, Arkut, R. C., Ghani, N., "Graceful Label Numbering in Optical MPLS Networks", proceedings of Opticomm 2000 pp. 1-8, Dallas, USA, October 2000.

  22. Chang, G. K. Ellinas, G., Maegher, B., Xin, W., Yoo, S. J., Iqbal, M. Z., Young, J., Dai, H., Chen, Y. J., Lee, C., Yang, X., Chowdhury, A., Chen, T. F., "A proof-of-concept, Ultra-low Latency Optical Label Switching testbed Demonstration for next generation Internet Networks", Proceedings of OFC 2000, paper WD-5, Baltimore, USA, 2000

  23. Lin, Y.M., Way, W.I., Chang, G.K., "A Novel Optical Label swapping technique Using Erasable Optical Single-sideband Subcarrier Label", IEEE Photonics Technology Letters, vol. 12, #8, August 2000.

A novel rearrangeable non-blocking architecture for 2D MEMS optical space switches

  1. J. P. Ryan, "WDM: North American Development Trends," IEEE Communications Magazine, vol. 36, no. 3, February 1998, pp. 40-44.

    Google Scholar 

  2. P. E. Green, "Optical Networking Update," IEEE Journal on Selected Areas in Communications, vol. 14, no. 5, June 1996, pp. 764-779.

    Google Scholar 

  3. I. P. Kaminow, and et al, "A Wideband All-Optical WDM Network," IEEE Journal on Selected Areas in Communications, vol. 14, no. 5, June 1996, pp. 780-799.

    Google Scholar 

  4. N. Ghani, and S. Dixit, "Channel Provisioning for Higher-Layer Protocols in WDM Networks," Proc. of All-Optical Networking 1999: Architecture, Control, and Management Issues, Boston, Massachusetts, September 1999, pp. 22-32.

  5. John Y. Wei, C. C. Shen, Brian J. Wilson, Machael J. Post, and Y. Tsai, "Connection Management for Multiwavelength Optical Networking," IEEE Journal on Selected Areas in Communications, vol. 16, no. 7, September 1998, pp. 1097-1108.

    Google Scholar 

  6. R. Ramaswami, and A. Segall, "Distributed Network Control for Optical Networks," IEEE/ACM Transactions on Networking, vol. 5, no. 6, December 1997, pp. 936-943.

    Google Scholar 

  7. X. Yuan, R, Melhem, R. Gupta, Y. Mei, and C. Qiao, "Distribute Control for Wavelength Reservation and their Performance Evaluation," Journal of Photonic Network Communications, vol. 1, no. 3, March 1999, pp. 207-218.

    Google Scholar 

  8. Y. Ye, S. Dixit, and M. Ali, "On Joint Protection/ Restoration in IP-Centric DWDM Based Optical Transport Networks," IEEE Communications Magazines, vol. 38, no. 6, June 2000, pp. 174-183.

    Google Scholar 

  9. Y. Miyao and H. Saito, "Optimal Design and Evaluation of Survivable WDM Networks," IEEE Journal on Selected Areas in Communications, vol. 16, no. 7, September 1998, pp. 1190-1198.

    Google Scholar 

  10. B. Van Caenegem, W. Van Parys, F. De Turck, and P. M. Demeester, "Dimensioning of Survivable WDM Networks," IEEE Journal on Selected Areas in Communications, vol. 16, no. 7, September 1998, pp. 1146-1157.

    Google Scholar 

  11. R. Chua, and Y. Hu, "Optical Switches are Key Components in High-Capacity, Data-Centric Networks," Lightwave, November 1999, pp. 43-49.

  12. Y. Shun and B. Mukherjee, "Advances in Photonic Packet Switching: An Overview," IEEE Communications Magazines, vol. 38, no. 2, February 2000, pp. 84-94.

    Google Scholar 

  13. H. J. Dutton, Understanding Optical Communications, Prentice Hall PTR, New Jersey, 1998.

    Google Scholar 

  14. B. Lu, and et al, "Optical-Cascaded, Multistage Switching Operation of a Multifunctional Binary Optical/Optoelectronic Switch," IEEE Photonics Technology Letters, vol. 7, no. 12, December 1995, pp. 1427-1429.

    Google Scholar 

  15. R. A. Falk, J. C. Adams, C. D. Capps, S. G. Ferrier, and J. A. Krinsky, "Electro-Optic Imagery of High-Voltage GaAs Photoconductive Switches," IEEE Transactions on Electron Devices, vol. 42, no. 1, January 1995, pp. 43-49.

    Google Scholar 

  16. H. Lausen, and et al, "Pigtailed Thermal Optic 1 _ 2-Switch in Polymer: Design and Experimental Evaluation," Proc. of Euro. Fiber Optic Conf. & Networks, 1994, pp. 99-101.

  17. D. K. Cheng, Y. Liu, and G. J. Sonek, "Optical Switch Based on Thermally-Activated Dye-Doped Biomolecular Thin Films," IEEE Photonics Technology Letters, vol. 7, no. 4, April 1995, pp. 366-369.

    Google Scholar 

  18. A. Kar-Roy, and C. S. Tsai, "8*8 Symmetric Nonblocking Integrated Acoustooptic Space Switch Module on LiNbO/sb 3/," IEEE Photonics Technology Letters, vol. 7, no. 7, July 1992, pp. 731-734.

    Google Scholar 

  19. D. A. Smith, A. Alessandro, J. E. Baran, D. J. Fritz, J. L. Jackel, and R. S. Chakravarthy, "Multiwavelength Performance of an Apodized Acousto-Optic Switch," Journal of Lightwave Technology, vol. 14, no. 9, September 1996, pp. 2044-2051.

    Google Scholar 

  20. S. Hardy, "Liquid-Crystal Technology vies for Switching Applications," Lightwave, December 1999, pp. 44-46.

  21. N. K. Shankar, J. A. Morris, C. P. Yakymyshyn, and C. R. Pollock, "A 2*2 Fiber Optic Switch Using Chiral Liquid Crystals," IEEE Photonics Technology Letters, vol. 2, no. 2, February 1990, pp. 147-149.

    Google Scholar 

  22. S. Hardy, "All-Optical-Switching Groundswell Builds," Lightwave, May 2000, pp. 45-47.

  23. L. Y. Lin, E. L. Goldstein, and R. W. Tkach, "Free-Space Micromachined Optical Switches with Submillisecond Switching Time for Large-Scale Optical Crossconnects," IEEE Photonics Technology Letters, vol.10, no. 4, April 1998, pp. 525-527.

    Google Scholar 

  24. L. Y. Lin, "Free-Space Micromachined Optical-Switching Technologies and Architectures," Proc. of OFC'99, vol. 2, pp. 154-156.

  25. L. Y. Lin, E.L. Gildstein, J. M. Simmons, and R. W. Tkach, "High-Density Micromachined Polygon Optical Crossconnects Exploiting Network Connection Symmetry," IEEE Photonics Technology Letters, vol. 10, no. 10, October 1998, pp. 1425-1427.

    Google Scholar 

  26. A. Ware, "New Photonic-Switching Technology for All-Optical Networks," Lightwave, March 2000, pp. 92-98.

  27. M. Makihara, M. Sato, F. Shimokawa, and Y. Nishida, "Micromechanical Optical Switches Based on Thermocapillary Integrated in Waveguide Substrate," Journal of Lightwave Technology, vol. 17, no. 1, January 1999, pp. 14-18.

    Google Scholar 

  28. J. E. Fouquet, and et al, "Compact, Scalable Fiber Optic Cross-Connect Switches," Digest of the LEOS Summer Topical Meetings, 1999, pp. II59-II60.

  29. News Analysis: "Alcatel Backs the Bubbles," http:// www.lightreading.com/document.asp?doc_id_ 1315, July 31, 2000.

  30. A. Spanke and V. E. Benes, " N-Stage Planar Optical Permutation Network," Applied Optics, vol. 26, no. 1, April 1987, pp. 1226-1229.

    Google Scholar 

  31. L. Y. Lin, E. L. Goldstein, and R. W. Tkah, "On the Expandability of Free-Space Micromachined Optical Cross Connects," Journal on Lightwave Technology, vol. 18, no.4, April 2000, pp. 482-489.

    Google Scholar 

  32. A. Neukermans and R. Ramaswami, "MEMS Technology forOpticalNetworking Applications," IEEE Communications Magazines, vol. 39, no. 1, January 2001, pp. 62-69.

    Google Scholar 

B-PON standardization in FSAN

  1. Y.Maeda et al., "FSANOAN-WGand Future Issues for Broadband Optical Access Networks," IEEE Com.Mag., pp. 126-132, vol. 39, no. 12,December 2001.

    Google Scholar 

  2. H. Ueda et al., "Deployment status and Common Technical Specification for B-PON system," IEEE Com. Mag., pp. 134-141, vol. 39, no. 12, December 2001.

    Google Scholar 

  3. D. Faulkner et al., "The Full Services Access Networks Initiative," IEEE Com. Mag., p. 58, vol. 35, no. 4, April 1997.

    Google Scholar 

  4. FSAN home page of http://www.labs.bt.com/ profsoc/access/index.htm

  5. F. Effenberger et al., "Advances in Broadband Passive Optical Networking (B-PON) Technologies," IEEE Com. Mag., pp. 118-124, vol. 39, no. 12, December 2001.

    Google Scholar 

  6. D. Spears, et al., "FSAN initiative propels broadband access worldwide," LIGHTWAVE special Reports 1999, Sept.,1999.

  7. R. Ireland, "Broadband Access," Networld_Interop, May 9, 2001.

  8. E.Edmon, et al., "Full Service Access Networks in SBC", OHAN 2002, P.165, June, 2002.

  9. B. Paradis, et al., "France Telecom's Deployment of the FSAN PON Technology", OHAN 2002, P.157, June, 2002.

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Optical Networks Magazine, Volume 3, Number 6. Optical Networks Magazine 3, 1–96 (2002). https://doi.org/10.1023/A:1021058220528

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