Reduction of Nonlinear Intersubcarrier Intermixing in Coherent Optical OFDM by a Fast Newton-Based Support Vector Machine Nonlinear Equalizer

Elias Giacoumidis; Sofien Mhatli; Marc F.C. Stephens; Athanasios Tsokanos; Jinlong Wei; Mary E. McCarthy; Nick J. Doran; Andrew D. Ellis

doi:10.1109/JLT.2017.2678511

Reduction of Nonlinear Intersubcarrier Intermixing in Coherent Optical OFDM by a Fast Newton-Based Support Vector Machine Nonlinear Equalizer

Elias Giacoumidis, Sofien Mhatli, Marc F.C. Stephens, Athanasios Tsokanos, Jinlong Wei, Mary E. McCarthy, Nick J. Doran, Andrew D. Ellis

Aston Institute of Photonic Technologies (AiPT)

Research output: Contribution to journal › Article › peer-review

Abstract

A fast Newton-based support vector machine (N-SVM) nonlinear equalizer (NLE) is experimentally demonstrated, for the first time, in 40 Gb/s 16-quadrature amplitude modulated coherent optical orthogonal frequency division multiplexing at 2000 km of transmission. It is shown that N-SVM-NLE extends the optimum launched optical power by 2 dB compared to the benchmark Volterra-based NLE. The performance improvement by N-SVM is due to its ability of tackling both deterministic fiber-induced nonlinear effects and the interaction between nonlinearities and stochastic noises (e.g., polarization-mode dispersion). An N-SVM is more tolerant to intersubcarrier nonlinear crosstalk effects than Volterra-based NLE, especially when applied across all subcarriers simultaneously. In contrast to the conventional SVM, the proposed algorithm is of reduced classifier complexity offering lower computational load and execution time. For a low C-parameter of 4 (a penalty parameter related to complexity), an execution time of 1.6 s is required for N-SVM to effectively mitigate nonlinearities. Compared to conventional SVM, the computational load of N-SVM is ∼6 times lower.

Original language	English
Article number	7874191
Pages (from-to)	2391-2397
Number of pages	7
Journal	Journal of Lightwave Technology
Volume	35
Issue number	12
DOIs	https://doi.org/10.1109/JLT.2017.2678511
Publication status	Published - 7 Mar 2017

Bibliographical note

Copyright: 2017, IEEE. This is an open access article freely accessible at https://dx.doi.org/10.1109/JLT.2017.2678511

Funding: Centre of Excellence; 10.13039/501100000266-EPSRC; Sterlite Technologies Ltd.

Keywords

Coherent detection
coherent optical OFDM
nonlinearity mitigation
support vector machines

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10.1109/JLT.2017.2678511

Reduction of Nonlinear Intersubcarrier Intermixing in Coherent Optical OFDM
This is an open access article freely accessible at https://dx.doi.org/10.1109/JLT.2017.2678511
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Cite this

Giacoumidis, E., Mhatli, S., Stephens, M. F. C., Tsokanos, A., Wei, J., McCarthy, M. E., Doran, N. J., & Ellis, A. D. (2017). Reduction of Nonlinear Intersubcarrier Intermixing in Coherent Optical OFDM by a Fast Newton-Based Support Vector Machine Nonlinear Equalizer. Journal of Lightwave Technology, 35(12), 2391-2397. Article 7874191. https://doi.org/10.1109/JLT.2017.2678511

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abstract = "A fast Newton-based support vector machine (N-SVM) nonlinear equalizer (NLE) is experimentally demonstrated, for the first time, in 40 Gb/s 16-quadrature amplitude modulated coherent optical orthogonal frequency division multiplexing at 2000 km of transmission. It is shown that N-SVM-NLE extends the optimum launched optical power by 2 dB compared to the benchmark Volterra-based NLE. The performance improvement by N-SVM is due to its ability of tackling both deterministic fiber-induced nonlinear effects and the interaction between nonlinearities and stochastic noises (e.g., polarization-mode dispersion). An N-SVM is more tolerant to intersubcarrier nonlinear crosstalk effects than Volterra-based NLE, especially when applied across all subcarriers simultaneously. In contrast to the conventional SVM, the proposed algorithm is of reduced classifier complexity offering lower computational load and execution time. For a low C-parameter of 4 (a penalty parameter related to complexity), an execution time of 1.6 s is required for N-SVM to effectively mitigate nonlinearities. Compared to conventional SVM, the computational load of N-SVM is ∼6 times lower.",

keywords = "Coherent detection, coherent optical OFDM, nonlinearity mitigation, support vector machines",

author = "Elias Giacoumidis and Sofien Mhatli and Stephens, {Marc F.C.} and Athanasios Tsokanos and Jinlong Wei and McCarthy, {Mary E.} and Doran, {Nick J.} and Ellis, {Andrew D.}",

note = "Copyright: 2017, IEEE. This is an open access article freely accessible at https://dx.doi.org/10.1109/JLT.2017.2678511 Funding: Centre of Excellence; 10.13039/501100000266-EPSRC; Sterlite Technologies Ltd.",

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AU - Tsokanos, Athanasios

AU - Wei, Jinlong

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AU - Doran, Nick J.

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AB - A fast Newton-based support vector machine (N-SVM) nonlinear equalizer (NLE) is experimentally demonstrated, for the first time, in 40 Gb/s 16-quadrature amplitude modulated coherent optical orthogonal frequency division multiplexing at 2000 km of transmission. It is shown that N-SVM-NLE extends the optimum launched optical power by 2 dB compared to the benchmark Volterra-based NLE. The performance improvement by N-SVM is due to its ability of tackling both deterministic fiber-induced nonlinear effects and the interaction between nonlinearities and stochastic noises (e.g., polarization-mode dispersion). An N-SVM is more tolerant to intersubcarrier nonlinear crosstalk effects than Volterra-based NLE, especially when applied across all subcarriers simultaneously. In contrast to the conventional SVM, the proposed algorithm is of reduced classifier complexity offering lower computational load and execution time. For a low C-parameter of 4 (a penalty parameter related to complexity), an execution time of 1.6 s is required for N-SVM to effectively mitigate nonlinearities. Compared to conventional SVM, the computational load of N-SVM is ∼6 times lower.

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Reduction of Nonlinear Intersubcarrier Intermixing in Coherent Optical OFDM by a Fast Newton-Based Support Vector Machine Nonlinear Equalizer

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Keywords

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