Performance assessment of dual-polarized 5G waveforms and beyond in directly modulated DFB-laser using Volterra equalizer

We investigate the performance of 25-Gbps dual-polarized orthogonal frequency division multiplexing (OFDM)-based modulation in a directly modulated distributed feedback (DFB)-laser over 25 km of single-mode fiber. A Volterra equalizer is used to compensate for the nonlinear effects of the optical fi...

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Published in:Optical engineering 2020-05, Vol.59 (5), p.056114-056114
Main Authors: Gharbi, Oussama, Mhatli, Sofien, Dayoub, Iyad, Haxha, Shyqyri, Attia, Rabah, Aldalbahi, Adel, Jaesim, Adrian
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Artificial Intelligence
Computer Science
Electronics
Engineering Sciences
Networking and Internet Architecture
Signal and Image processing
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container_end_page 056114
container_issue 5
container_start_page 056114
container_title Optical engineering
container_volume 59
creator Gharbi, Oussama
Mhatli, Sofien
Dayoub, Iyad
Haxha, Shyqyri
Attia, Rabah
Aldalbahi, Adel
Jaesim, Adrian
description We investigate the performance of 25-Gbps dual-polarized orthogonal frequency division multiplexing (OFDM)-based modulation in a directly modulated distributed feedback (DFB)-laser over 25 km of single-mode fiber. A Volterra equalizer is used to compensate for the nonlinear effects of the optical fiber. The results show that FBMC-OQAM modulation outperforms OFDM, universal filtered multicarrier (UFMC), and generalized frequency division multiplexing (GFDM) waveforms. Indeed, a target bit error rate of ∼3.8  ×  10  −  3 [forward error correction (FEC) limit] for FBMC, UFMC, OFDM, and GFDM can be achieved at −30.5, −26, −16, and −14.9  dBm, respectively. The effect of the DFB laser is also investigated for UFMC, OFDM, and GFDM, and they undergo a Q penalty of 2.44, 2.77, and 4.14 dB, respectively, at their FEC limit points. For FBMC-OQAM, the signal is perfectly recovered when excluding the DFB laser at −30.5  dBm.
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Engineering Sciences
Networking and Internet Architecture
Signal and Image processing
title Performance assessment of dual-polarized 5G waveforms and beyond in directly modulated DFB-laser using Volterra equalizer
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