Volume 8 , Issue 2 , PP: 16-28, 2023 | Cite this article as | XML | Html | PDF | Full Length Article
Sandy Montajab Hazzouri 1 *
Doi: https://doi.org/10.54216/GJMSA.080202
This paper presents Improving performance of 112 Gbit/s optical coherent communications systems using digital signal processing techniques to compensate linear impairments that are exposed to the signal during its propagation in optical fiber. In this paper, different multi-level modulation formats (DP-QPSK, DP 8PSK, DP- 16PSK and DP-16-QAM) were compared for the same data rate at different distances from the transmitter without amplification. the comparison was done by measuring bit error rate value. We used digital signal processing techniques for linear effects compensation. Where chromatic dispersion was compensated using a simple digital filter, and Polarization mod dispersion was realized by applying the constant-modulus algorithm (CMA). The phase and frequency mismatch between the transmitter and the local oscillator in the receiver was compensated using the modified Viterbi-Viterbi algorithm. We used the Optical simulator Opti-system , which was linked with MATLAB R2011 in order to implementation DSP algorithms and analyze obtained results.
Communication system , mathematical model , optical , high-speed
[1] Devra, S; Kaur, G. 2011, Dispersion Compensation using Raised Cosine Filter in optical fibers. International Journal of Information and Electronics Engineering. Vol. 1, No. 1, 47.
[2] Ip, E. 2009, Coherent detection and digital signal processing for fiber optic communications. Stanford University, California, 55-56.
[3] Sewter, J. 2005, Electronic equalization of polarization-mode dispersion in 40- GB/S optical systems. Electrical and Computer Engineering, University of Toronto. MSc. Thesis, 489.
[4] Kikuchi, K. 2008, Polarization-demultiplexing algorithm in the digital coherent receiver. In IEEE/LEOS Summer Topical Meetings, IEEE,101-102.
[5] Kikuchi, K.2016, Fundamentals of coherent optical fiber communications. Journal of Lightwave Technology, Vol. 34, No. 1, 157-179.
[6] Millar, D. S. 2011. Digital signal processing for coherent optical fibre communications . University College London UCL. Ph.D Thesis, 29-30.
[7] Mussolin, M. 2010, Digital Signal Processing Algorithms for High-Speed Coherent Transmission in Optical Fibers. M Sc. Thesis, Telecommunications Engineering, Padova University, Italy