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Reseach Article

WDM-PON Delivering 5-Gbps Downstream/2.5-Gbps Upstream Data

by Balaji Raobawale, S. K. Sudhansu
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 72 - Number 4
Year of Publication: 2013
Authors: Balaji Raobawale, S. K. Sudhansu
10.5120/12483-8896

Balaji Raobawale, S. K. Sudhansu . WDM-PON Delivering 5-Gbps Downstream/2.5-Gbps Upstream Data. International Journal of Computer Applications. 72, 4 ( June 2013), 23-27. DOI=10.5120/12483-8896

@article{ 10.5120/12483-8896,
author = { Balaji Raobawale, S. K. Sudhansu },
title = { WDM-PON Delivering 5-Gbps Downstream/2.5-Gbps Upstream Data },
journal = { International Journal of Computer Applications },
issue_date = { June 2013 },
volume = { 72 },
number = { 4 },
month = { June },
year = { 2013 },
issn = { 0975-8887 },
pages = { 23-27 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume72/number4/12483-8896/ },
doi = { 10.5120/12483-8896 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T21:37:03.700469+05:30
%A Balaji Raobawale
%A S. K. Sudhansu
%T WDM-PON Delivering 5-Gbps Downstream/2.5-Gbps Upstream Data
%J International Journal of Computer Applications
%@ 0975-8887
%V 72
%N 4
%P 23-27
%D 2013
%I Foundation of Computer Science (FCS), NY, USA
Abstract

We experimentally demonstrate wavelength division multipl- exing passive optical network system delivering downstream 5-Gbps data and upstream 2. 5-Gbps data over 153km single mode fiber on a single wavelength using pulse source that is mode-locked laser generating a single pulse of ''sech'' shape with specified power and width, that is, soliton pulse. The optical source for downstream data and upstream data is soliton pulse generator at central office and reflective semiconductor optical amplifier at each optical network unit. We also investigate analysis of backscattered optical signal for upstream data and downstream data simultaneously. Bit error rate and Quality factor was measured to demonstrate the proposed scheme.

References
  1. S. J. Park, C. H. Lee, K. T. Jeong, H. J. Park, J. G. Ahn, and K. H. Song, "Fiber to the home services based on wavelength division multiplexing passive optical network", J Lightw Technol 22 (2004), 2582–2591.
  2. H. Shinohara, "Broadband access in Japan: Rapidly growing FTTH market", IEEE Commun Mag 43 (2005), 72–78.
  3. J. J. Yoo, H. H. Yun, T. Y. Kim, K. B. Lee, M. Y. Park, B. W. Kim, and B. R. Kim, "A WDM-ethernet hybrid passive optical network architecture", In: Proc. ICACT, 2006, Vol. 3, nos. 20–22, pp. 1754–1757.
  4. G. Maier, M. Martinelli, A. Pattavina, and E. Avadori, "Design and cost performance of the multistage WDM-PON access networks", J Lightw Technol 18 (2000), 125–139.
  5. C. H. Lee, W. V. Sorin, and B. Y. Kim, "Fiber to the home using a PON infrastructure", J Lightw Technol 24 (2006), 4568–4583.
  6. S. J. Park, G. Y. Kim, and T. S. Park, "WDM-PON system based on the laser light injected reflective semiconductor optical amplifier", Opt Fiber Technol 12 (2006), 162–169.
  7. F. Payoux, P. Chanclou, T. Soret, N. Genay, and R. Brenot, "Demonstration of a RSOA-based wavelength remodulation scheme in 1. 25 git/s,bidirectional hybrid WDM-TDM PON", In: Proc. OFC, 2006, TuC4.
  8. J. -H. Moon, K. M. Choi, and C. H. Lee, "Overlay of broadcasting signal in a WDM-PON", In: Proceedings of the Optical Fiber Communication and Conference, 2006, Paper OThK8.
  9. G. P. Agrawal, "optical pulse propagation in doped fiber amplifier", Phys Rev A 44 (1991), 7493–7501.
  10. G. P. Agrawal, "Nonlinear fiber optics", 3rd ed. , Academic Press, Orlando, FL, 2001.
  11. W. R. Lee, M. Y. Park, S. H. Cho, J. Lee, C. Kim, G. Jeong, and B. W. Kim, "Bidirectional WDM-PON based on gain-saturated reflective semiconductor optical amplifiers", IEEE Photon Technol Lett 17 (2005), 2460–2462.
  12. L Tawade and S Deosarkar "cost-effective wavelength division multiplexing passive optical Network delivering upstream/downstream data on a single wavelength using soliton pulse", microwave and optical technology letters, vol. 54,No. 2,February2012.
Index Terms

Computer Science
Information Sciences

Keywords

Wavelength division multiplexing passive optical network soliton pulse reflective semiconductor optical amplifier erbium doped fiber amplifier single mode fiber photo detector arrayed waveguide grating