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Situational Analysis of Significant Research Contribution in Optical Network

by Kavitha G.r, Indumathi T.s
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 112 - Number 15
Year of Publication: 2015
Authors: Kavitha G.r, Indumathi T.s
10.5120/19743-1516

Kavitha G.r, Indumathi T.s . Situational Analysis of Significant Research Contribution in Optical Network. International Journal of Computer Applications. 112, 15 ( February 2015), 22-25. DOI=10.5120/19743-1516

@article{ 10.5120/19743-1516,
author = { Kavitha G.r, Indumathi T.s },
title = { Situational Analysis of Significant Research Contribution in Optical Network },
journal = { International Journal of Computer Applications },
issue_date = { February 2015 },
volume = { 112 },
number = { 15 },
month = { February },
year = { 2015 },
issn = { 0975-8887 },
pages = { 22-25 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume112/number15/19743-1516/ },
doi = { 10.5120/19743-1516 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T22:49:34.279475+05:30
%A Kavitha G.r
%A Indumathi T.s
%T Situational Analysis of Significant Research Contribution in Optical Network
%J International Journal of Computer Applications
%@ 0975-8887
%V 112
%N 15
%P 22-25
%D 2015
%I Foundation of Computer Science (FCS), NY, USA
Abstract

With the increasing demands of high speed internet and long-haul networking system, optical network has largely contributed in the area of network and communication system. Owing to lossless transmission and ability to carry massive data in a single optical fiber, optical networking has highly positive potential. It was seen that this topic is consistently being an active research area from last decade, however, there are certain trade-off being seen in the research techniques too. The prime aim of this paper is to furnish some unique and potential information recapping the effectiveness of the techniques introduced in research area by extracting the open issues in optical networking system. The compact version of the article will be definitely assist and encourage the upcoming researchers as it furnishes some constructive technique for adopting soft-computational approaches of investigation the problems.

References
  1. C. F. 2011. Passive Optical Networks: Principles and Practices. Academic Press. Computers
  2. Grobe, K. Eiselt, M. 2013. Wavelength Division Multiplexing: A Practical Engineering guide. John Wiley & Sons, Science
  3. Iniewski, K. 2011. Convergence of Mobile and Stationary Next-Generation networks, John Wiley & Sons, Technology and Engineering
  4. Li, T. Willner, A. E. kaminow, I. 2010. Optical Fiber telecommunications VA: Component and Sub-systems, Elsevier, Technology and Engineering
  5. Thinniyam, S. Ramanathan. Kim, M. Medard, M. and O'Reilly, U-M. 2010. Network Coding in Optical Networks with O/E/O Based Wavelength Conversion. In National Fiber Optic Engineers Conference, OSA Technical Digest (CD)
  6. http://www. google. com/patents/WO2014126977A1?cl=en
  7. Peng, Y. Jie, Z. Li, Z. Y. Yi, G. W. 2012. Improved wavelength decomposition approach for computing blocking probabilities in WRONs. The Journal of China Universities of Posts and Telecommunications, Vol. 19, pp. 119-123
  8. Xin, C. 2007. Blocking Analysis of Dynamic Traffic Grooming in Mesh WDM Optical Networks. IEEE/ACM Transactions on Networking, Vol. 15, No. 3
  9. Shen, G. Tucker, R. S. 2009. Sparse Traffic Grooming in Translucent Optical Networks. Sparse Traffic Grooming in Translucent Optical Networks. Journal of Lightwave Technology, Vol. 27, No. 20
  10. Figueira, S. Kaushik, N. Naiksatam, S. Chiappari, S. A. and Bhatnagar, N. 2004. Advance Reservation of Lightpaths in Optical-Network Based Grids. Broadnets/Gridnets
  11. Lee, H-S. Yoo, T-W. Moon, J-H. Lee, H-H. 2004. Two-Step Scheduling Algorithm to Support Dual Bandwidth Allocation Policies in an Ethernet Passive Optical Network. ETRI Journal,Vol. 26, No. 2
  12. Nakajima, Tatsuya. 2006. Development of optical connector to achieve large-scale optical network construction. Proceeding of the 55th IWCS/Focus. pp. 439-443
  13. Tian, Y. Chang, Q. Su, Y. 2008. A WDM passive optical network enabling multicasting with color-free ONUs. Opt. Express. Vol. 16(14). pp. 10434-10439
  14. Lei, Z. Yang,M. Jiang, Y. Regentova, E. and Lu, E. 2006. Generalized wavelength routed optical micronetwork in network-on-chip. In Proc. 18th Int. Conf. Parallel and Distributed Computing and Systems (IASTED), pp. 698-703
  15. Soares, A. Maranhao, J. 2006. Wavelength Converter Placement Scheme for Optical Network with Sparse-Partial Wavelength Conversion Capability. ResearchGate
  16. Yupapin, P. Mitatha, S. 2009. Multi-users Quantum Key Distribution Via Wavelength Routers in an Optical Network. , Recent Patents on Computer Science. Vol. 2, pp. 14-20
  17. Lee, C-M. Chan, T-J. Chan, C-K. Chen, L-K. Lin, C. 2003. A Group Protection Architecture (GPA) for Traffic Restoration in Multi-wavelength Passive Optical Networks. Proceedings ECOC
  18. Luo, Y. Effenberger, F. and Sui. M. 2012. Cloud computing provisioning over passive optical networks. First IEEE International Conference on Communications in China (ICCC2012), Beijing, China.
  19. Chau, L. H. Hasegawa, H. Sato, K. 2008. Hierarchical Optical Path Network Design Algorithm Considering Waveband Add/Drop Ratio Constraint. IEEE-Proceedings of COIN
  20. Notamicola, G. Rizzelli, G. Maier, G. Pattavina, A. 2012. Scalability Analysis of WSS-based ROADMs. IEEE-17th European Conference on Networks and Optical Communication, pp. 1-6
  21. Roy, S. Malik, A. Deore, A. 2013. Evaluating Efficiency of Multi-Layer Switching in Future Optical Transport Networks. IEEE- Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference, pp. 1-3
  22. Karamitsos, I. and Bowerman, C. 2013. A Resource Reservation Protocol with Linear Traffic Prediction for OBS Networks. Hindawi Publishing Corporation Advances in Optical Technologies, Article ID 425372, pp. 6
  23. Miller, D. A. B. 2013. Reconfigurable add-drop multiplexer for spatial modes. Optics Express, Vol. 21, No. 17
  24. Ansari, S. and Ansari, A. 2014. Comparative Analysis of Routing and Wavelength Assignment Algorithms used in WDM Optical Networks. Research Journal of Applied Sciences, Engineering and Technology. Vol. 7, Iss. 13, pp. 2646-2654
  25. JenoJasmine, J. Sutha, J. 2013. Feedback Routing Algorithm in optical WDM Networks. International Journal of Computer Science & Engineering Technology, Vol. 4 No. 10
  26. Pavel, L. 2004. Power Control for OSNR Optimization in Optical Networks: A Noncooperative Game Approach. 43rd IEEE Conference on Decision and Control
  27. Pavel, L. 2006. A Noncooperative Game Approach to OSNR Optimization in Optical Networks. IEEE Transactions On Automatic Control. Vol. 51, No. 5
  28. Pavel, L. 2006. Hierarchical Iterative Algorithm for a Couple Constrained OSNR Nash Game. IEEE-GLOBECOM, pp. 1-6
Index Terms

Computer Science
Information Sciences

Keywords

Optical Communication Network Wavelength Routing WDM

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