For the efficient compensation of fiber nonlinearity, one of the guiding principles appears to be: fewer steps are better and more efficient. We challenge this assumption and show that carefully designed multi-step approaches can lead to better performance-complexity trade-offs than their few-step counterparts
We investigate the use of an enhanced backpropagation algorithm where subbanding and frequency-shapi...
We propose a modification of the conventional perturbation-based approach of fiber nonlinearity comp...
A neural-network-based approach is presented to efficiently implement digital backpropagation (DBP)....
For the efficient compensation of fiber nonlinearity, one of the guiding principles appears to be: f...
Nonlinearity compensation in fiber optical communication systems has been for a long time considered...
Fiber nonlinearities from Kerr effect are considered as major constraints for enhancing the transmis...
Several machine learning inspired methods for perturbation-based fiber nonlinearity (PBNLC) compensa...
Nowadays, optical communication transmission is based mainly on optical fiber networks. Increasing ...
An important problem in fiber-optic communications is to invert the nonlinear Schr\uf6dinger equatio...
We propose a data augmentation technique to improve performance and decrease complexity of the super...
© 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
We investigate the use of an enhanced backpropagation algorithm where subbanding and frequency-shapi...
We propose a modification of the conventional perturbation-based approach of fiber nonlinearity comp...
A neural-network-based approach is presented to efficiently implement digital backpropagation (DBP)....
For the efficient compensation of fiber nonlinearity, one of the guiding principles appears to be: f...
Nonlinearity compensation in fiber optical communication systems has been for a long time considered...
Fiber nonlinearities from Kerr effect are considered as major constraints for enhancing the transmis...
Several machine learning inspired methods for perturbation-based fiber nonlinearity (PBNLC) compensa...
Nowadays, optical communication transmission is based mainly on optical fiber networks. Increasing ...
An important problem in fiber-optic communications is to invert the nonlinear Schr\uf6dinger equatio...
We propose a data augmentation technique to improve performance and decrease complexity of the super...
© 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
We investigate the use of an enhanced backpropagation algorithm where subbanding and frequency-shapi...
We propose a modification of the conventional perturbation-based approach of fiber nonlinearity comp...
A neural-network-based approach is presented to efficiently implement digital backpropagation (DBP)....