Yoshihisa Inada scite author profile

Fiber nonlinearity is one of the major limitations to the achievable capacity in long distance fiber optic transmission systems. Nonlinear impairments are determined by the signal pattern and the transmission system parameters. Deterministic algorithms based on approximating the nonlinear Schrodinger equation through digital back propagation, or a single step approach based on perturbation methods have been demonstrated, however, their implementation demands excessive signal processing resources, and accurate knowledge of the transmission system. A completely different approach uses machine learning algorithms to learn from the received data itself to figure out the nonlinear impairment. In this work, a single-step, system agnostic nonlinearity compensation algorithm based on a neural network is proposed to pre-distort symbols at transmitter side to demonstrate ~0.6 dB Q improvement after 2800 km standard single-mode fiber transmission using 32 Gbaud signal. Without prior knowledge of the transmission system, the neural network tensor weights are constructed from training data thanks to the intra-channel cross-phase modulation and intra-channel four-wave mixing triplets used as input features.

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Evolution from 8QAM live traffic to PS 64-QAM with Neural-Network Based Nonlinearity Compensation on 11000 km Open Subsea Cable

Kamalov¹,

Jovanovski²,

Vusirikala³

et al. 2018

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Capacity-Approaching Transmission over 6375 km at Spectral Efficiency of 8.3 bit/s/Hz

Zhang¹,

Yaman²,

Huang³

et al. 2016

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A Generalized Pairwise Optimization for Designing Multi-Dimensional Modulation Formats

Zhang¹,

Yaman²,

Mateo

et al. 2017

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Yoshihisa Inada

A silicon photonic–electronic neural network for fibre nonlinearity compensation

Field and lab experimental demonstration of nonlinear impairment compensation using neural networks

Evolution from 8QAM live traffic to PS 64-QAM with Neural-Network Based Nonlinearity Compensation on 11000 km Open Subsea Cable

Capacity-Approaching Transmission over 6375 km at Spectral Efficiency of 8.3 bit/s/Hz

A Generalized Pairwise Optimization for Designing Multi-Dimensional Modulation Formats

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