Open Access  Subscription or Fee Access

In order to upgrade the overall system performance of optical communication system affected by dispersion, several dispersion compensation techniques are proposed and analyzed. Fiber Bragg Grating (FBG) is most advanced technique for dispersion compensation in optical fiber communication system. In this paper, FBG has been studied and investigated as a dispersion compensator in optical communication system for different grating length and apodization functions at 10Gbps and 220km transmission fiber. All the simulation work has been done in "OptiSystem 7.0" simulation software. The simulated transmission system has been investigated on the different parameters that are Q-factor, BER, Eye height.

Fiber Bragg Grating (FBG), Erbium Doped Fiber Amplifier (EDFA), Q-Factor, Eye Height.

J. N. Dike and D. A. Dogbe, "Optimizing the efficiency of Fiber Optics Technology in Telecommunication Systems " .IEEE International conference on Emerging & Sustainable Technologies for power & ICT in developing society,2013.

R.S.Kaler, T.S.kamal and Ajay K Sharma, "Comparison of Pre-, Post , and Symmetrical Dispersion Compensation Schemes for 10Gbps NRZ Links Using Standard and Dispersion Compensated Fiber" International Journal of Optics communication , Elsevier science , vol.209/1-3 , (2002) , pp 107-123.

Yogesh Chaba and R . S . Kaler (2010). "Comparison of Various Dispersion Compensation Techniques at High bit rates using CSRZ format. Optik 121: 813-817.

Lazoul Mohamed, Simohamed Lofty mokhtar, "Comparison between Different Chromatic Dispersion Compensation Schemes in high bit rate Communication Systems with important nonlinear effects,” International Conference on communications, Heraklion, Greece, 2008.

N. K . Kahlon, and G. Kaur, "Various Dispersion Compensation Techniques for Optical System,” Open Journal of Comm. and Software, vol 1 , pp. 64-73 , May 2014

Bo -Ning HU , Wang Wei , R.M. Zhao , W. Jing " Analysis On Dispersion Compensation with DCF based on Optisystem " , 2nd International Conference On Industrial and Information Systems 2010, 40-43.

M. D. Feuer, et al., "Electronic dispersion compensation for a 10-Gbps link using a directly modulated laser " , IEEE Photonics Technology Let., Vol. 15, pp. 1788–1790, 2003

Kaushal Kumar, A.K. Jaiswal , Mukesh Kumar and N. Agrawal “Performance Analysis of Dispersion Compensation using Fiber Bragg Grating in Optical Communication” International Journal of Current Engineering and Technology, Vol.4, No.3 June 2014.

M.A .Othman, M.M. Ismail, ".An Analysis of 10Gbits/s Optical Transmission System Using Fiber Bragg Grating (FBG)" , (IOSRJEN) ISSN:2250-3021Volume 2, Issue 7.July. 2012, pp. 55-61.

S.O. Mohammadi, S.Mozaffari and M.M. Shahidi,"Simulation of a transmission system to compensate dispersion in an optical fiber by chirp gratings" International Journal of the Physical Sciences vol. 6 (32), 2.december.2011 pp. 7354 - 7360.

K. Kalli And A.Othonos , “FBG : Fundamentals and Applications in Telecommunications and Sensing”, Artech House, Inc., 1999.

I.Ashry ,A.elrashidi, A,Mahros," Investigating the Performance of Apodized Fiber Bragg Gratings(FBG ) for Sensing Applications" American Society for Engineering Education (ASEE Zone 1),IEEE 2014.

Z. Li, V. Hsiao, Z. Chen, J. Tang, F. Zhao, and H. Wang, “Op-tically tunable fiber Bragg grating,” IEEE Photon. Technol. Lett. 22, 1123–1125 (2010).

Y. M. Liu, Z. Y. Yu, H. B. Yang, N. Zhang, Q. Feng, X. G. Zhang," Numerical optimization and simulation to Wavelength-Division Multiplexing isolation filter consisted of two identical long period fiber grating ", Optics Communications, vol.246, pp. 367-372, 2005.

Sher Shermin Azmiri Khan, Md. Saiful Islam, “Performance evaluation of different apodization profiles of linearly chirped FBG for dispersion compensation”, IEEE 2011.

H. S. Phing, Jalil Ali, B. A. Tahir and R. A. Rahman, “Fiber Bragg grating modeling, characteristics and simulation with different grating lengths,” Journal of Fundamental Sciences, vol. 3, pp. 167–175, 2007.