Vol. 9 No. 12 (2023)
Articles

ANALYSIS OF DISPERSION COMPENSATION IN A SINGLE MODE OPTICAL FIBER COMMUNICATION SYSTEM (REVIEW)

Sani Abdullahi Mohammed
Department of Electrical and Electronics Engineering, School of Technology Kano State Polytechnic. saniabdullahi@kanopoly.edu.ng
Yahya Adamu
Department of Electrical and Electronics Engineering, School of Engineering and Engineering Technology, Modibbo Adama University Yola
Matthew Kwatri Luka
Department of Electrical and Electronics Engineering, School of Engineering and Engineering Technology, Modibbo Adama University Yola
Munzali A. Abana
Department of Electrical and Electronics Engineering, School of Engineering and Engineering Technology, Modibbo Adama University Yola

Published 2023-12-05

Keywords

  • Optical fiber communication,
  • Dispersion,
  • Dispersion Compensation fiber (DCF),
  • Single mode fiber (SMF),
  • intersymbol interference (ISI)

How to Cite

Sani Abdullahi Mohammed, Yahya Adamu, Matthew Kwatri Luka, & Munzali A. Abana. (2023). ANALYSIS OF DISPERSION COMPENSATION IN A SINGLE MODE OPTICAL FIBER COMMUNICATION SYSTEM (REVIEW). International Journal of Advanced Academic Research, 9(12), 66-75. https://www.openjournals.ijaar.org/index.php/ijaar/article/view/346

How to Cite

Sani Abdullahi Mohammed, Yahya Adamu, Matthew Kwatri Luka, & Munzali A. Abana. (2023). ANALYSIS OF DISPERSION COMPENSATION IN A SINGLE MODE OPTICAL FIBER COMMUNICATION SYSTEM (REVIEW). International Journal of Advanced Academic Research, 9(12), 66-75. https://www.openjournals.ijaar.org/index.php/ijaar/article/view/346

Abstract

The single mode fiber (SMF) is a dielectric cylinder waveguide, made out of silica (SiO2) glass, whose guiding properties are based on the total internal reflection principle. Propagation of light inside an SMF is subjected to linear and nonlinear effects that have to be considered together to define an accurate fiber channel model. In optical networks chromatic dispersion (CD) is one of the main obstacles in high-speed transmission. Pulse spreading due to the dispersion causes the overlapping of the transmitted pulses at the receiver end known as inter symbol interference (ISI). To reduce the dispersion and to improve the overall performance of this optical networks system, Dispersion Compensation Fiber and optical fiber amplifier dispersion compensation techniques are enacted on this proposed optical network system. In this paper the characterization of the impact of optical fiber impairments on quality of optical fiber transmission systems had been demonstrated analytically and verified numerically with simulation results.

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