We present a new joint routing, wavelength, and power allocation method for optical network planning. The introduced gradient-based convex optimization approach has a lower computational complexity, compared to common linear programming techniques, suitable for both static as well as time-critical dynamic network planning with fast convergence requirement. The proposed scheme takes physical-layer impairments into account, using the enhanced Gaussian noise nonlinear model. In contrast to methods exploiting the theoretical full link spectrum utilization assumption (fully occupied fiber-optic C-hand spectrum), we focus on maximizing the network achievable rate and minimum signal-to-noise ratio (SNR) margin of networks with partial spectrum uti...
With the advancement in evolving concepts of software-defined networks and elastic-optical-network, ...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
Energy consumption of communication networks is growing very fast due to the rapidly increasing traf...
Elastic optical networks (EONs) rely on efficient resource planning to meet future communication nee...
This paper serves to highlight the gains in SNR margin and/or data capacity that can be achieved thr...
This paper proposes a novel network planning strategy to jointly allocate physical layer resources t...
This work proposes a novel routing algorithm for transparent optical networks, which is based on the...
In this paper, we investigate the problem of routing connections in all-optical networks while allow...
This thesis describes novel contributions in the field of physical layer aware optical networks. IP ...
This paper proposes a novel joint resource allocation technique for flexible-grid systems by utilizi...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
The advent of Coherent-detection systems supported by Digital-Signal-Processing (DSP) makes it possi...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
Using well-established results on nonlinear propagation modeling in coherent optical links, two diff...
With the advancement in evolving concepts of software-defined networks and elastic-optical-network, ...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
Energy consumption of communication networks is growing very fast due to the rapidly increasing traf...
Elastic optical networks (EONs) rely on efficient resource planning to meet future communication nee...
This paper serves to highlight the gains in SNR margin and/or data capacity that can be achieved thr...
This paper proposes a novel network planning strategy to jointly allocate physical layer resources t...
This work proposes a novel routing algorithm for transparent optical networks, which is based on the...
In this paper, we investigate the problem of routing connections in all-optical networks while allow...
This thesis describes novel contributions in the field of physical layer aware optical networks. IP ...
This paper proposes a novel joint resource allocation technique for flexible-grid systems by utilizi...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
The advent of Coherent-detection systems supported by Digital-Signal-Processing (DSP) makes it possi...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
Using well-established results on nonlinear propagation modeling in coherent optical links, two diff...
With the advancement in evolving concepts of software-defined networks and elastic-optical-network, ...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
Energy consumption of communication networks is growing very fast due to the rapidly increasing traf...