Fabio Pittalà scite author profile

Nonlinear distortion has always been a challenge for optical communication due to the nonlinear transfer characteristics of the fiber itself. The next frontier for optical communication is a second type of nonlinearities, which results from optical and electrical components. They become the dominant nonlinearity for shorter reaches. The highest data rates cannot be achieved without effective compensation. A classical countermeasure is receiver-side equalization of nonlinear impairments and memory effects using Volterra series. However, such Volterra equalizers are architecturally complex and their parametrization can be numerical unstable. This contribution proposes an alternative nonlinear equalizer architecture based on machine learning. Its performance is evaluated experimentally on coherent 88 Gbaud dual polarization 16QAM 600 Gb/s back-to-back measurements. The proposed equalizers outperform Volterra and memory polynomial Volterra equalizers up to 6th orders at a target bit-error rate (BER) of 10 − 2 by 0.5 dB and 0.8 dB in optical signal-to-noise ratio (OSNR), respectively.

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Cognitive, Heterogeneous and Reconfigurable Optical Networks: The CHRON Project

Caballero

Borkowski

Miguel

et al. 2014

J. Lightwave Technol.

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Training-Aided Frequency-Domain Channel Estimation and Equalization for Single-Carrier Coherent Optical Transmission Systems

Pittalà

Slim

Mezghani

et al. 2014

J. Lightwave Technol.

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Fabio Pittalà

Dual-polarization thin-film lithium niobate in-phase quadrature modulators for terabit-per-second transmission

Deep Neural Network Equalization for Optical Short Reach Communication

Cognitive, Heterogeneous and Reconfigurable Optical Networks: The CHRON Project

Training-Aided Frequency-Domain Channel Estimation and Equalization for Single-Carrier Coherent Optical Transmission Systems

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