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Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation

by Mulayam Yadav, A.k. Jaiswal, Neelesh Agrawal, Navendu Nitin
journal cover thumbnail

International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 122 - Number 20
Year of Publication: 2015
Authors: Mulayam Yadav, A.k. Jaiswal, Neelesh Agrawal, Navendu Nitin
10.5120/21819-5149

Mulayam Yadav, A.k. Jaiswal, Neelesh Agrawal, Navendu Nitin . Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation. International Journal of Computer Applications. 122, 20 ( July 2015), 36-39. DOI=10.5120/21819-5149

@article{ 10.5120/21819-5149,
author = { Mulayam Yadav, A.k. Jaiswal, Neelesh Agrawal, Navendu Nitin },
title = { Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation },
journal = { International Journal of Computer Applications },
issue_date = { July 2015 },
volume = { 122 },
number = { 20 },
month = { July },
year = { 2015 },
issn = { 0975-8887 },
pages = { 36-39 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume122/number20/21819-5149/ },
doi = { 10.5120/21819-5149 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T23:11:04.907821+05:30
%A Mulayam Yadav
%A A.k. Jaiswal
%A Neelesh Agrawal
%A Navendu Nitin
%T Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation
%J International Journal of Computer Applications
%@ 0975-8887
%V 122
%N 20
%P 36-39
%D 2015
%I Foundation of Computer Science (FCS), NY, USA
Abstract

Diverse factors like chromatic dispersion, polarization mode dispersion, attenuation, non-linear effects, second order and third order dispersion impress limit on the performance of all the optical fiber networks. Dispersion compensation fiber are being used in this paper , we projected three techniques (pre, post, and mix-compensation of dispersion compensation) of dispersion compensation methods for non-return to zero links using standard for high date rate optical transmission system. The performances have been compared on the basis of parameters such as Q factor, bit error rate (BER), eye height and threshold level at the receiving end. The simulation model of the WDM system using the software Optisystem 12. 0 is presented according to the above principle. It is observed that the post-compensation technique performs better than pre-, mix-compensation technique for 40 Gb/s in the WDM system

References
  1. Bo-ning HU, Wang Jing, Wang Wei, Rui-mei Zhao, "Analysis on Dispersion Compensation with DCF based on Optisystem". 2nd International Conference on Industrial and Information Systems pp. 40-43 2010.
  2. Mochida Y, Yamaguchi N, Ishikawa G, "Technology-oriented review and vision of 40Gb/s-based optical transport Networks", Journal of light-wave technology . PP. 2272-22, 12002,20(12)
  3. Zhang Hongb in, Q IU Kun, "Emulation of characteristics of optical fiber transmission for a 10Gb/s single channel situation," act a photonica sinica 2001 vol. 30 No. 6 715-720
  4. Omae T, "Universal conditions for estimating the nonlinear refractive index n2 of dispersion com- pensating fibers by the CW- 43 SPM method", IEEE Photon. Technol. Lett. , Vol 13. No. 6, pp. 571-573, Nov, 2001.
  5. Mohammad. Amin. Dallaali, "Malin Premaratne power and dispersion constrained optimization of optical links with unequally spaced repeater modules", Optical Fiber Technology, Vol 13, No 4, pp. 309-317, October. 2007.
  6. Zou X Y, Hayee M I, H Wang S M, et al. Limitations in 10Gb/s WDM optical-fiber transmission when using a variety of fiber types to manage dispersion and nonlinearities [J]. Light wave Technol. , PP: 1144-1152, June, 1996
  7. WuQiang, Yu Chong Xiu, "Analysis on dispersion compensation with DCF", semiconductor optoelectronics, Vol. 24 No. 3 pp. 186- 196. June 2007
  8. Zhaohuaigang, "study on dispersion compensation in optical transmission system", study pn optical communications, Vol. 3, No. 141, 2007
  9. Wangchen, Raomin, "the performance of the DCF Transmission system", Journal of applied sciences, Vol. 21, No. 2, pp. 177-181, June 2003.
  10. Djafar K. Mynbaev Lowell L. Scheiner, Fiber-optic communications technology. Beijing: Science publishing company, 2002
  11. Jianjun Yu, Bojun Yang,"Dispersion-allacated soliton technology with long amplifier spacing and long distance," IEEEphoton technol lett, vol 9, pp. 952-954, No. 7, 1997:
  12. Killy R I, Thiele H J, Mikhailov v, ea al. Reduction of intrachannel nonlinear distortion in 40-Gb/s based WDM transmission over standard fiber [J]. IEEE Photonics Technology Letters, 2000, 12(12): 1642-1626
  13. ZhouZhiQiang, TangYuLiang, "Optimmum schemes of dispersion compensation transmission systems using dispersion compensation fibers", laser technology, VoI. 24,No. 5, pp. 265-269 Oct. 2000.
Index Terms

Computer Science
Information Sciences

Keywords

BER dispersion compensation optical communication DCF Q-factor WDM

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