CFP last date
20 May 2024
Call for Paper
June Edition
IJCA solicits high quality original research papers for the upcoming June edition of the journal. The last date of research paper submission is 20 May 2024

Submit your paper
Know more
The week's pick
Responsive image
Enhancing Privacy Preservation: Multi-Attribute Protection with P-Sensitive K-Anonymity

Twinkle Patel Kiran Amin
Random Articles
Reseach Article

Performance Analysis of 200-Gb/s Low Complexity Transmission in Second Window

by T. K. Mohanapriya, A. Sivanantharaja, D. Shanmuga Sundar
journal cover thumbnail

International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 68 - Number 22
Year of Publication: 2013
Authors: T. K. Mohanapriya, A. Sivanantharaja, D. Shanmuga Sundar
10.5120/11709-7282

T. K. Mohanapriya, A. Sivanantharaja, D. Shanmuga Sundar . Performance Analysis of 200-Gb/s Low Complexity Transmission in Second Window. International Journal of Computer Applications. 68, 22 ( April 2013), 5-8. DOI=10.5120/11709-7282

@article{ 10.5120/11709-7282,
author = { T. K. Mohanapriya, A. Sivanantharaja, D. Shanmuga Sundar },
title = { Performance Analysis of 200-Gb/s Low Complexity Transmission in Second Window },
journal = { International Journal of Computer Applications },
issue_date = { April 2013 },
volume = { 68 },
number = { 22 },
month = { April },
year = { 2013 },
issn = { 0975-8887 },
pages = { 5-8 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume68/number22/11709-7282/ },
doi = { 10.5120/11709-7282 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T21:28:35.221073+05:30
%A T. K. Mohanapriya
%A A. Sivanantharaja
%A D. Shanmuga Sundar
%T Performance Analysis of 200-Gb/s Low Complexity Transmission in Second Window
%J International Journal of Computer Applications
%@ 0975-8887
%V 68
%N 22
%P 5-8
%D 2013
%I Foundation of Computer Science (FCS), NY, USA
Abstract

In this paper, a low complexity up to 200-Gb/s is analyzed over a 38-km standard single mode fiber transmission system in the 1310-nm wavelength domain. The system is based exclusively on semiconductor component without any form of dispersion compensation. The results showed that the 1310-nm wavelength domain can support low cost and low complexity high speed transmission.

References
  1. IEEE 802. 3ba-2010 [Online]. Available: http://standards. ieee. org/getiee802/download/802. 3 ba-2010. pdf.
  2. T. N. Nielsen, et al. , "8×10 Gb/s 1. 3 µm unrepeated transmission over a distance of 141 km with Raman post- and pre-amplifiers," IEEE photon. Technol. lett. vol. 10, no. 10, pp. 1492-1494, Oct. 1998.
  3. J. P. Turkiewicz, A. M. J. Koonen, G. D. Khoe, and H. Waardt, "Do we need 1310 nm transmission in modern networks?" in proc. Opt. commun. Eur. Conf. , Cannes, France, 2006, pp. 1-2, paper Te3p. 153.
  4. K. Adachi, et al. , "25-Gb/s multi-channel 1. 3µm surface-emitting lens-integrated DFB laser arrays," J. Lightw. Technol. , vol. 29, no. 19, pp. 2899-2905, Oct. 1, 2011.
  5. T. Fujisawa, et al. , "1. 3µm 4×25-Gb/s, monolithically integrated light source for metro area 100-Gb/s ethernet,"IEEE photon. Technol. Lett. , vol. 23, no. 6, pp. 356-358, Mar. 15, 2011.
  6. T. Fujisawa. et al. , "1. 3µm, 50 Gb/s electro absorption modulators integrated with DFB laser for beyond 100G parallel LAN applications," Electron. lett. , vol. 47, no. 12, pp. 708-710. Jun. 2011.
  7. ITU-T G. 652 Characteristics of a Single-Mode Optical Fiber and Cable. (2009,Nov. ). [Online]. Available: http://www. itu. int/rec/T-REC-G. 652-200911-I.
  8. Fujisawa, T. , Takahata, K. , Kobayashi, W. , Tadokoro, T. , Fujiwara, N. , Kanazawa, S. , and Kano, F. : '1. 3-mm, 50-Gbit/s EADFB lasers for 400GbE'. Proc. OFC'11, Los Angeles, CA, USA, 2011 (OWD4)
  9. E. J. M. Verdurmen et al, Elec. Lett. , 41(2005), 349
  10. J. P. Turkiewicz et al, Elec. Lett. , 39(2003), 795
  11. G. Lehmann, E. Meissner, S. Spalter, Y. R. Zhou, E. Sikora, and A. Lord "Dispersion tolerances at 160 Gb/s,"in Proc. Network and Optical Comm. 2002, Darmstadt, Germany, pp. 95-100.
  12. T. Tadokoro, et al. , IEEE Photon. Technol. Lett. , 21, 16, 1154-1156 (2009).
  13. J. P. Turkiewicz, E. Tangdiongga, H. Rohde, W. Schairer, G. Lehmann, G. D. Khoe, and H. de Waardt, "Simultaneous high-speed OTDM add drop multiplexing using GT-UNI switch," Electron. lett. vol. 39, no. 10, pp. 795-796,2003.
Index Terms

Computer Science
Information Sciences

Keywords

Optical fiber communication electro absorption modulator semiconductor optical amplifier wavelength division multiplexing

Powered by PhDFocusTM