Maximum data throughput of an optical communications link and mesh network, operating in the nonlinear regime as a function of the length scale. Results are from analytical estimation of channel properties and integer linear progamme optimisation of routing and wavelength assignment. The published paper and its links to previous published works contains full details of the methods and algorithms used to obtain these results.EPSRC (EP/J017582/1
The routing and spectrum assignment in nonlinear flexible-grid networks is extended byoptimizing the...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
Current developments in optical components ’ technologies enable wavelengths to be very narrowly spa...
Maximum data throughput of an optical communications link, a 3-node liner network and a 9-node mesh ...
In this paper, we link the throughput gains, due to transceiver adaptation, in a point-to-point tran...
In this paper, we link the throughput gains, due to transceiver adaptation, in a point-to-point tran...
Transceiver adaptation is essential within an optical network to make effective use of the physical ...
This paper investigates the physical layer optimization as a means of improving the utilization of l...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
Abstract—Resource allocation for transport optical networks has traditionally used a transmission re...
Resource allocation for transport optical networks has traditionally used a transmission reach const...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
This paper serves to highlight the gains in SNR margin and/or data capacity that can be achieved thr...
Achievable information rates are discussed as a tool to analyse and design optical networks. It is s...
The potential of optimum selection of modulation and forward error correction (FEC) overhead (OH) in...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended byoptimizing the...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
Current developments in optical components ’ technologies enable wavelengths to be very narrowly spa...
Maximum data throughput of an optical communications link, a 3-node liner network and a 9-node mesh ...
In this paper, we link the throughput gains, due to transceiver adaptation, in a point-to-point tran...
In this paper, we link the throughput gains, due to transceiver adaptation, in a point-to-point tran...
Transceiver adaptation is essential within an optical network to make effective use of the physical ...
This paper investigates the physical layer optimization as a means of improving the utilization of l...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
Abstract—Resource allocation for transport optical networks has traditionally used a transmission re...
Resource allocation for transport optical networks has traditionally used a transmission reach const...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
This paper serves to highlight the gains in SNR margin and/or data capacity that can be achieved thr...
Achievable information rates are discussed as a tool to analyse and design optical networks. It is s...
The potential of optimum selection of modulation and forward error correction (FEC) overhead (OH) in...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended byoptimizing the...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
Current developments in optical components ’ technologies enable wavelengths to be very narrowly spa...