Analysis of a Proposed Optical Burst Switching Core Node with Wavelength Converters and Deflection Routing

Authors

  • Ahmed S. Samra  Department of Electronics & Communication, Faculty of Engineering, Mansoura University, Mansoura, Egypt
  • Ahmed M. Abo-Taleb  Department of Electronics & Communication, Faculty of Engineering, Mansoura University, Mansoura, Egypt
  • Waleed M. Gaballah  Department of Electronics & Communication, Faculty of Engineering, Mansoura University, Mansoura, Egypt

Keywords:

Optical Burst Switching (OBS), wavelength conversion capability, burst loss probability, deflection routing

Abstract

The main commonly problem that arises in Optical Burst Switching (OBS) networks is a burst contention. Wavelength conversion and deflection routing are the most important switch fabric strategies to resolve this contention. In this paper, we study a mathematical model for a new proposal optical burst switching core node architecture. A performance measurement has been investigated by analytic the burst loss probability using steady-state occupancy probabilities and Poisson traffic model arrivals. Performance analysis results are presented at different values of the mean burst arrival rates with a core node design parameters such as wavelength conversion capability and deflection routing.

References

  1. MARTIN MAIR, Optical Switching Networks, Cambridge University Press, 2008, ISBN: 978-0-521-86800-6.
  2. HARDEEP SINGH, DINESH ARORA, PARDEEP KUMAR, Analysis of Switching Techniques in Optical Network, International Journal of Computer Science and Information Technology & Security (IJCSITS),1 (2) (2011) 147-152.
  3. ACHYUT K. DUTTA, NILOY K. DUTTA, MASAHIKO FUJIWARA, WDM Technologies: Optical Networks, Elsevier Academic Press, Volume III, 2004, ISBN 0-12-225263-2.
  4. BARPANDA, RAVI SANKAR, ASHOK KUMAR TURUK, BIBHUDATTA SAHOO, A Review of Optical Burst Switching in Wavelength Division Multiplexing Networks, International Conference on. IEEE, Dec. 2014, pp. 142-147.
  5. AM.BALAMURUGAN, DR.A.SIVASUBRAMANIAN, Optical Burst Switching Issues and Its Features, International Journal of Emerging Trends & Technology in Computer Science (IJETTCS), 2 (3) (2013) 306-315.
  6. S PALLAVI, AND M. LAKSHMI, Performance of Optical Node for Optical Burst Switching, Indian Journal of Science and Technology, 8 (2015) 383–391.
  7. MANGWALA, MMOLOKI, AND O. O. EKABUA, A survey of burst assembly algorithms for Optical Burst Switching (OBS), International Journal of Engineering and Technology Research, 1 (7) (2013) 107-115.
  8. SEOUNG YOUNG LEE, Performance Analysis of Optical Burst Switching Network, M.Sc. Thesis, University of Cape Town, 2015.
  9. PALLAVI S., M. LAKSHMI, A Simple Node Architecture for Optical Burst Switching, International Journal of Engineering and Technology (IJET), 6 (2) (2014) 1072-1078.
  10. H. S. SAINI, J. PRAKASH, A.WASON, AND D.ARORA, Burst Contention Resolving Mechanisms for Optical Burst Switching, An International Journal of Engineering science, 1 (2011) 62-67.
  11. A. A. MOHAMMED, A.Z. RASHED, AND O. M. A. DARDEER, An Accurate Model for Optical Burst Switching Core Node Equipped with Wavelength Converter Pool, International Journal of Advanced Research in Electronics and Communication Engineering (IJARECE), 2 (11) (2013) 838-845.
  12. RICHA AWASTHI, LOKESH SINGH, ASIF ULLAH KHAN, Estimation of Bursts Length and Design of a Fiber Delay Line Based OBS Router, Journal of Engineering Science and Technology, 12 (3) (2017) 834 – 846.
  13. AI-HONGGUAN, BO-YUNWANG, TAOWANG, Contention resolution and burst assembly scheme based on burst segmentation in optical burst switching networks, Optik - International Journal for Light and Electron Optics, 124 (14) (2013) 1749-1754.
  14. D. CHUONG, VU LOI, AND VO M. NHAT, A model for the performance analysis of SPL-OBS core nodes with deflection routing, in International Conference on Computational Collective Intelligence, Springer Berlin Heidelberg, 2012, pp. 152-161.
  15. R. JANKUNIENE, P. TERVYDIS, The Contention Resolution in OBS Network, Elektronika IR Elektrotechnika, 20 (6) (2014) 144-149.
  16. VENKATA RAO TAVANAM, VENKATESWARLU. D. S., KARUNA SAGAR DASAR, Deflection Routing Strategies for Optical Burst Switching Networks: Contemporary Affirmation of the Recent Literature, Global Journal of Computer Science and Technology Network, Web & Security, 13 (11) (2013) 12-20.
  17. SHUKLA, VAIBHAV, ARUNA JAIN, AND RAJIV SRIVASTAVA, Performance evaluation of an AWG based optical router, Optical, and Quantum Electronics, 48 (1) (2016) 69.
  18. ETTABIB, M. A., ET AL., Wavelength conversion of complex modulation formats in a compact SiGe waveguide, Optics Express, 25 (4) (2017) 3252-3258.
  19. SALMAN ALI ALQAHTANI, A Comparison and Performance of Different Optical Switching Architectures, Int. J. Communications, Network and System Sciences, 4 (8) (2011) 514-522.
  20. M. MORSY, M. SOWAILEM, H. SHALABY, Performance Analysis of a Core Node Equipped with Wavelength Converter Pool in an Optical Burst Switched Network, IEEE 17th International Conference on Telecommunications (ICT), April 2010, pp. 516-522.
  21. YAO MINGWU, LIU ZENGJI, AND WEN AIJUN, Accurate and Approximate Evaluations of Asynchronous Tunable-Wavelength-Converter Sharing Schemes in Optical Burst-Switched Networks, Journal of Lightwave Technology, 23 (10) (2005) 2807-2815.
  22. T. VENKATESH, C. SIVA RAM MURTHY, An Analytical Approach to Optical Burst-Switched Networks, Springer, 2010, ISBN 978-1-4419-1509-2

International Journal of Scientific Research in Science, Engineering and Technology

Downloads

Published

2018-06-30

Issue

Volume 4, Issue 8, May-June-2018

Section

Research Articles

License

Copyright (c) IJSRSET

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Ahmed S. Samra, Ahmed M. Abo-Taleb, Waleed M. Gaballah, " Analysis of a Proposed Optical Burst Switching Core Node with Wavelength Converters and Deflection Routing, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 4, Issue 8, pp.418-425, May-June-2018.