Authors: A. Abid, F. M. Abbou, H. T. Ewe

Abstract:

Optical Bursts Switching (OBS) is a relatively new optical switching paradigm. Contention and burst loss in OBS networks are major concerns. To resolve contentions, an interesting alternative to discarding the entire data burst is to partially drop the burst. Partial burst dropping is based on burst segmentation concept that its implementation is constrained by some technical challenges, besides the complexity added to the algorithms and protocols on both edge and core nodes. In this paper, the burst segmentation concept is investigated, and an implementation scheme is proposed and evaluated. An appropriate dropping policy that effectively manages the size of the segmented data bursts is presented. The dropping policy is further supported by a new control packet format that provides constant transmission overhead.

Keywords: Burst length, Burst Segmentation, Optical BurstSwitching.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1070039

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References:

[1] I. Chlamtac, A. Ganz, and G. Karmi. "Lightpath communications: an approach to high-bandwidth optical WANs", IEEE Transactions on Communications, vol. 40 July 1992, pp. 1171-1182.
[2] Y. Mei and C. Qiao. "Efficient distributed control protocols for WDM optical networks", In Proc. Int-l Conference on Computer Communication and Networks, September 1997, pp. 150-153.
[3] X. Yuan, R. Melhem, and R. Gupta. "Distributed path reservation algorithms for multiplexed all-optical interconnection networks", In Proceedings of the IEEE Sump. High Performance Computer Architecture. February 1997, pp. 38-47.
[4] D. Blumenthal. P. Prucnal, and J. Sauer. "Photonic packet switches - architectures and experimental implementations", IEEE Proceedings, vol. 82, November 1994, pp. 1650-1667.
[5] R. Cruz and J. Tsai. Cod. "Alternative architectures for high speed packet switching", IEEE/ACM Transactions on Networking, vol. 4, February 1996, pp.11-21.
[6] C. Qiao & M. Yoo. "Optical burst switching (OBS)-a new paradigm for an optical internet", Journal High Speed Networks, vol. 8, pp. 69-84, 1999.
[7] T. Battestilli. "Optical Burst Switching: A Survey", NCSU Technical Report, 07/2002.
[8] Vincent W. S. Chan, Katherine L. Hall, Eytan Modiano, and Kristin A. Rauschenbach. "Architectures and Technologies for High-Speed Optical Data Networks", Journal of lightwave Technology, vol. 16, NO. 12, December 1998.
[9] Ching-Fang Hsu, Te-Lung Liu, and Nen-Fu Huang. "On the deflection routing in QoS supported in WDM Optical burst-switched Networks", IEEE International Conference on Communications, vol. 5, 2002, pp. 2786-2790.
[10] Sungchang Kim, Namook Kim, and Minhon Kang. "Contention resolution for optical burst switching networks using alternative routing", IEEE International Conference on Communications, vol. 5, 2002, pp. 2678-268.
[11] A. Detti, V. Eramo, and M. Listanti. "Performance evaluation of new technique for IP support in a WDM Optical Network: Optical Composite Burst Switching (OCBS)", IEEE Journal of lightwave Technology, vol. 20(2), February 2002, pp.154-165.
[12] V. Vokkarane, J. Jue, and S. Sitaraman. "Burst segmentation: an approach for reducing packet loss in optical burst switched networks", IEEE International Conference on Communications, vol. 5, 2002, pp. 2673-2677.
[13] M. Yoo and C. Qiao. "Just-Enough-Time (JET): A High Speed Protocol for Bursty Traffic in Optical Networks", In proceeding of IEEE/LEOS Conf. on Technologies For a Global Information Infrastructure, Aug. 1997, pp. 26-27.
[14] J. Kulzer and W. Montgomery. "Statistical switching architectures for future services", presented at ISS-84, Florence, Session 43A, May 7-11, 1984.
[15] S. Amstutz. "Burst switchingÔÇöAn update", IEEE Communication Magazine, Sept. 1989, pp. 50-57.
[16] A. Detti and M. Listanti. "Application of Tell & Go and Tell & Wait Reservation Strategies in a Optical Burst Switching Network: a Performance Comparison", In Proceeding of IEEE International Conference on Telecommunication (ICT), vol. 2, 2001, pp. 540-548.
[17] J.Y. Wei and R.I. McFarland. "Just-In-Time signaling for WDM optical burst switching networks", Journal of Lightwave Technology, vol. 18(12), December 2000, pp. 2019-2037.
[18] M. Neuts, H. Vu, and M. Zukerman. "Performance Analysis of Optical Composite Burst Switching", IEEE Communications Letters, vol. 6, August 2002, pp. 346-348.
[19] K. Dolzer and C. Gauger. "On burst assembly in optical burst switching networks - A performance evaluation of Just-Enough-Time", In Proceedings of the 17th International Teletraffic Congress (ITC 17), 2001, pp. 149-160.
[20] P. Fan, C. Feng, Y. Wang, and N. Ge. "Investigation of the time-offsetbase QoS support with optical burst switching in WDM networks", In Proceedings of IEEE International Conference on Communications 2002. vol. 5, 2002, pp. 2682-2686.
[21] K. Dolzer , C. Gauger, J. Spath, and S. Bodamer. "Evaluation of reservation mechanisms in optical burst switching networks", AEU International Journal Electron. Commun. Vol. 55, no. 1, 2001.
[22] D. Q. liu, and M. T. Liu. "Differentiated services and scheduling scheme in optical burst-switched WDM networks", In proceedings of International Symposium on Performance Evaluation of Computer and Telecommunication Systems (SPECTS-02), July 2002. pp. 113-117.
[23] D. Bertsekas, and R. Gallager, Data Networks, 2nd ed. Englewood Cliffs, NJ: Prentice Hall, 1992.