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

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International Journal of Computer Applications
© 2015 by IJCA Journal
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 and Navendu Nitin. Article: Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation. International Journal of Computer Applications 122(20):36-39, July 2015. Full text available. BibTeX

@article{key:article,
	author = {Mulayam Yadav and A.k. Jaiswal and Neelesh Agrawal and Navendu Nitin},
	title = {Article: Design Performance of High Speed Optical Fiber WDM System with Optimally Placed DCF for Dispersion Compensation},
	journal = {International Journal of Computer Applications},
	year = {2015},
	volume = {122},
	number = {20},
	pages = {36-39},
	month = {July},
	note = {Full text available}
}

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

  • 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.
  • 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)
  • 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
  • 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.
  • 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.
  • 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
  • WuQiang, Yu Chong Xiu, "Analysis on dispersion compensation with DCF", semiconductor optoelectronics, Vol. 24 No. 3 pp. 186- 196. June 2007
  • Zhaohuaigang, "study on dispersion compensation in optical transmission system", study pn optical communications, Vol. 3, No. 141, 2007
  • Wangchen, Raomin, "the performance of the DCF Transmission system", Journal of applied sciences, Vol. 21, No. 2, pp. 177-181, June 2003.
  • Djafar K. Mynbaev Lowell L. Scheiner, Fiber-optic communications technology. Beijing: Science publishing company, 2002
  • 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:
  • 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
  • ZhouZhiQiang, TangYuLiang, "Optimmum schemes of dispersion compensation transmission systems using dispersion compensation fibers", laser technology, VoI. 24,No. 5, pp. 265-269 Oct. 2000.