A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed. The model, which builds on the Gaussian noise model, takes into account the signal degradation caused by a combination of chromatic dispersion, nonlinear signal distortion, and amplifier noise. The center frequencies, bandwidths, and transmit powers can be chosen independently for each channel, which makes the model suitable for analysis and optimization of resource allocation and routing in large-scale optical networks applying flexible-grid wavelength-division multiplexing
We present a new joint routing, wavelength, and power allocation method for optical network planning...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended by optimizing th...
In the current development of coherent optical communication systems, nonlinear noise is considered ...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
Abstract—A low-complexity model for signal quality pre-diction in a nonlinear fiber-optical network ...
The adoption of open optical networks (OONs) requires the development of open and effective network ...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
The last few years have seen a wealth of new nonlinear propagation modeling results appear in the li...
Several approximate non-linear fiber propagation models have been proposed over the years. Recent re...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
Fiber nonlinearities from Kerr effect are considered as major constraints for enhancing the transmis...
This book covers the recent progress in fiber-optic communication systems with a main focus on the i...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
This paper is devoted to an in-depth discussion of the Gaussian Noise (GN) model which describes no...
This chapter aims to provide a comprehensive picture of the impact of fiber nonlinear effects on mod...
We present a new joint routing, wavelength, and power allocation method for optical network planning...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended by optimizing th...
In the current development of coherent optical communication systems, nonlinear noise is considered ...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
Abstract—A low-complexity model for signal quality pre-diction in a nonlinear fiber-optical network ...
The adoption of open optical networks (OONs) requires the development of open and effective network ...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
The last few years have seen a wealth of new nonlinear propagation modeling results appear in the li...
Several approximate non-linear fiber propagation models have been proposed over the years. Recent re...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
Fiber nonlinearities from Kerr effect are considered as major constraints for enhancing the transmis...
This book covers the recent progress in fiber-optic communication systems with a main focus on the i...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
This paper is devoted to an in-depth discussion of the Gaussian Noise (GN) model which describes no...
This chapter aims to provide a comprehensive picture of the impact of fiber nonlinear effects on mod...
We present a new joint routing, wavelength, and power allocation method for optical network planning...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended by optimizing th...
In the current development of coherent optical communication systems, nonlinear noise is considered ...