Optical communication systems are always evolving to support the need for ever-increasing transmission rates. This demand is supported by the growth in complexity of communication systems which are moving towards ultra-wideband transmission and space-division multiplexing. Both directions will challenge the design, modeling, and optimization of devices, subsystems, and full systems. Amplification is a key functionality to support this growth and in this context, we recently demonstrated a versatile machine learning framework for designing and modeling Raman amplifiers with arbitrary gains. In this article, we perform a thorough experimental characterization of such machine learning framework. The applicability of the proposed approach, as w...
One of the most promising solutions to overcome the capacity limit of current optical fiber links i...
A machine learning technique was recently proposed to optimize the gain of a multi-pump single-mode...
A multi-layer neural network is employed to learn the mapping between Raman gain profile and pump po...
A wide range of highly-relevant problems in programmable and integrated photonics, optical amplifica...
It has been recently demonstrated that neural networks can learn the complex pump–signal relations i...
A machine learning framework for Raman amplifier design is experimentally tested. Performance in ter...
A machine learning framework predicting pump powers and noise figure profile for a target distribute...
In this work, we will give an overview of some of the most recent and successful applications of mac...
We experimentally validate a real-time machine learning framework, capable of controlling the pump p...
We propose a Convolutional Neural Network (CNN) to learn the mapping between the 2D power profiles, ...
The paper presents recent advances in the design of controllable, highly accurate, and multi-band Ra...
Distributed Raman amplifier (DRA) has been widely studied in recent decades because of its low noise...
Optical communication systems, operating in C-band, are reaching their theoretically achievable capa...
Ultra-wideband (UWB) optical communication systems, envision to operate in O+E+S+C+l band, are a via...
We present a machine learning (ML) framework for designing desired signal power profiles over the sp...
One of the most promising solutions to overcome the capacity limit of current optical fiber links i...
A machine learning technique was recently proposed to optimize the gain of a multi-pump single-mode...
A multi-layer neural network is employed to learn the mapping between Raman gain profile and pump po...
A wide range of highly-relevant problems in programmable and integrated photonics, optical amplifica...
It has been recently demonstrated that neural networks can learn the complex pump–signal relations i...
A machine learning framework for Raman amplifier design is experimentally tested. Performance in ter...
A machine learning framework predicting pump powers and noise figure profile for a target distribute...
In this work, we will give an overview of some of the most recent and successful applications of mac...
We experimentally validate a real-time machine learning framework, capable of controlling the pump p...
We propose a Convolutional Neural Network (CNN) to learn the mapping between the 2D power profiles, ...
The paper presents recent advances in the design of controllable, highly accurate, and multi-band Ra...
Distributed Raman amplifier (DRA) has been widely studied in recent decades because of its low noise...
Optical communication systems, operating in C-band, are reaching their theoretically achievable capa...
Ultra-wideband (UWB) optical communication systems, envision to operate in O+E+S+C+l band, are a via...
We present a machine learning (ML) framework for designing desired signal power profiles over the sp...
One of the most promising solutions to overcome the capacity limit of current optical fiber links i...
A machine learning technique was recently proposed to optimize the gain of a multi-pump single-mode...
A multi-layer neural network is employed to learn the mapping between Raman gain profile and pump po...