Loss Analysis in Optical Fiber Transmission-Reference-Cited by-同舟云学术

Loss Analysis in Optical Fiber Transmission

Published:2015-12-19 Issue:1 Volume:5 Page:6
ISSN:2415-2048
Container-title:Sir Syed University Research Journal of Engineering & Technology
language:
Short-container-title:SSURJET

Author:

Mushtaque Anusha,Memon Abi Waqas,Mushtaq Zarlish,Memon Aftab A.,Chowdhry B. S.

Abstract

Most of telecommunication traffic (voice and data) around the globe is carried over the optical fiber cable. Theinternational traffic through various countries is carried over optical fiber cables laid under the sea. Similarly the long-haul traffic within the country is through optical fiber laid underground. Stress, strain, humidity, temperature, bending at acute angles affects the propagation of light energy in the optical fiber cable. All such factors increase the optical loss and attenuate the signal. The attenuation, especially in the long-haul communication increases the bit error rate and degrades the quality of service. In this paper, different optical losses are analyzed by setting up several experiments at a single mode optical fiber spool of 4 km. The optical fiber segment was subjected to various stress, temperatures and acute bending conditions. The resulting losses and degradation of the signal was measured using OTDR and Power meter.

Publisher

Sir Syed University of Engineering and Technology

Reference14 articles.

1. . Jeff Hecht, “The story of fiber optics”, Published by Oxford University Press, Inc., Issue 1 (2014), ISBN 0-19-510818-3; 0-19-516255-2

2. . Taylor Bilyeu& Dr. La Rosa “Optical Fibers: History, Structure and the Weakly Guided Solution”, Journal of physics 464 Portland State University (May 30, 2008)

3. . Ankit Gambhir, “Merits and Demerits of Optical Fiber Communication”, International Journal of Research in Engineering & Applied Sciences 99 http://www.euroasiapub.org, IJREAS Volume 3, Issue 3(March 2013) ISSN: 2249-3905

4. . J. R. Clowes, et al., Effects of High Temperature and Pressure on Silica Optical Fiber Sensors, IEEE Photonics Technology Letters, 10:3, 403-405, 2008.

5. . Gwaro J.O*, Maweu O.M, and Kirui M.S.K,” Attenuation Losses Due to Changes in Curvature, Temperature, and Pressure in Optical Fiber Cables’’, Indonesian Journal of Physics, Volume 21 Issue 4(October 2010).