69488.pdf

69488.pdf

Nonlinear phase noise (NLPN) is the most common impairment that degrades the performance of radio-over-fiber networks. The effect of NLPN in the constellation diagram consists of a shape distortion of symbols that increases the symbol error rate due to symbol overlapping when using a conventional de...

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Έκδοση: InTechOpen 2021
id oapen-20.500.12657-49366
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spelling oapen-20.500.12657-493662021-11-23T14:02:02Z Chapter Machine Learning Techniques to Mitigate Nonlinear Phase Noise in Moderate Baud Rate Optical Communication Systems Bogoni, A. Fern&#225, o ndez, E. C&#225, a rdenas Soto, A. Guerrero Gonzalez, N. Serafino, G. Ghelfi, P. nonlinear phase noise, clustering, Voronoi, decision boundary bic Book Industry Communication::U Computing & information technology Nonlinear phase noise (NLPN) is the most common impairment that degrades the performance of radio-over-fiber networks. The effect of NLPN in the constellation diagram consists of a shape distortion of symbols that increases the symbol error rate due to symbol overlapping when using a conventional demodulation grid. Symbol shape characterization was obtained experimentally at a moderate baud rate (250 MBd) for constellations impaired by phase noise due to a mismatch between the optical carrier and the transmitted radio frequency signal. Machine learning algorithms have become a powerful tool to perform monitoring and to identify and mitigate distortions introduced in both the electrical and optical domains. Clustering-based demodulation assisted with Voronoi contours enables the definition of non-Gaussian boundaries to provide flexible demodulation of 16-QAM and 4+12 PSK modulation formats. Phase-offset and in-phase and quadrature imbalance may be detected on the received constellation and compensated by applying thresholding boundaries obtained from impairment characterization through statistical analysis. Experimental results show increased tolerance to the optical signal-to-noise ratio (OSNR) obtained from clustering methods based on k-means and fuzzy c-means Gustafson-Kessel algorithms. Improvements of 3.2 dB for 16-QAM, and 1.4 dB for 4+12 PSK in the OSNR scale as a function of the bit error rate are obtained without requiring additional compensation algorithms. 2021-06-02T10:13:21Z 2021-06-02T10:13:21Z 2020 chapter ONIX_20210602_10.5772/intechopen.88871_480 https://library.oapen.org/handle/20.500.12657/49366 eng application/pdf n/a 69488.pdf InTechOpen 10.5772/intechopen.88871 10.5772/intechopen.88871 09f6769d-48ed-467d-b150-4cf2680656a1 H2020-MSCA-ITN-2014 642355 open access
institution OAPEN
collection DSpace
language English
description Nonlinear phase noise (NLPN) is the most common impairment that degrades the performance of radio-over-fiber networks. The effect of NLPN in the constellation diagram consists of a shape distortion of symbols that increases the symbol error rate due to symbol overlapping when using a conventional demodulation grid. Symbol shape characterization was obtained experimentally at a moderate baud rate (250 MBd) for constellations impaired by phase noise due to a mismatch between the optical carrier and the transmitted radio frequency signal. Machine learning algorithms have become a powerful tool to perform monitoring and to identify and mitigate distortions introduced in both the electrical and optical domains. Clustering-based demodulation assisted with Voronoi contours enables the definition of non-Gaussian boundaries to provide flexible demodulation of 16-QAM and 4+12 PSK modulation formats. Phase-offset and in-phase and quadrature imbalance may be detected on the received constellation and compensated by applying thresholding boundaries obtained from impairment characterization through statistical analysis. Experimental results show increased tolerance to the optical signal-to-noise ratio (OSNR) obtained from clustering methods based on k-means and fuzzy c-means Gustafson-Kessel algorithms. Improvements of 3.2 dB for 16-QAM, and 1.4 dB for 4+12 PSK in the OSNR scale as a function of the bit error rate are obtained without requiring additional compensation algorithms.
title 69488.pdf
spellingShingle 69488.pdf
title_short 69488.pdf
title_full 69488.pdf
title_fullStr 69488.pdf
title_full_unstemmed 69488.pdf
title_sort 69488.pdf
publisher InTechOpen
publishDate 2021
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