Nonlinear and dispersive transmission impairments in coherent fiber-optic communication systems are often compensated by reverting the nonlinear Schrödinger equation, which describes the evolution of the signal in the link, numerically. This technique is known as digital backpropagation. Typical digital backpropagation algorithms are based on split-step Fourier methods in which the signal has to be discretized in time and space. The need to discretize in both time and space however makes the real-time implementation of digital backpropagation a challenging problem. In this paper, a new fast algorithm for digital backpropagation based on nonlinear Fourier transforms is presented. Aiming at a proof of concept, the main emphasis will be put on...
The performance of a single-channel fiber-optical link is evaluated with linear (dispersive) and non...
We investigate a digital back-propagation simplification method to enable computationally-efficient ...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
Nonlinear and dispersive transmission impairments in coherent fiber-optic communication systems are ...
To compensate for linear and nonlinear distortions, several optical and digital techniques have been...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
We propose an adaptive digital back-propagation method (A-DBP) to selfdetermine unknown fiber nonlin...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
Recent numerical and experimental studies have shown that coherent transmission with advanced modula...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
Nonlinearity mitigation using digital signal processing has been shown to increase the achievable da...
Fiber-optical communication systems form the backbone of the internet, enabling global broadband dat...
The performance of a single-channel fiber-optical link is evaluated with linear (dispersive) and non...
We investigate a digital back-propagation simplification method to enable computationally-efficient ...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
Nonlinear and dispersive transmission impairments in coherent fiber-optic communication systems are ...
To compensate for linear and nonlinear distortions, several optical and digital techniques have been...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
We propose an adaptive digital back-propagation method (A-DBP) to selfdetermine unknown fiber nonlin...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
Recent numerical and experimental studies have shown that coherent transmission with advanced modula...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
Nonlinearity mitigation using digital signal processing has been shown to increase the achievable da...
Fiber-optical communication systems form the backbone of the internet, enabling global broadband dat...
The performance of a single-channel fiber-optical link is evaluated with linear (dispersive) and non...
We investigate a digital back-propagation simplification method to enable computationally-efficient ...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...