Resource allocation for transport optical networks has traditionally used a transmission reach constraint to estimate physical impairments. For flexible-grid networks, nonlinear impairments are not sufficiently well characterized by the transmission reach since various modulations and bandwidths can coexist on the same link. We propose a resource allocation algorithm for a single flexible-grid fiber link based on a nonlinear signal distortion model, as a first step towards whole-network design. An optimization problem is formulated to provide a close-to-optimal resource allocation that guarantees the quality of transmission for every channel. Compared with a simpler algorithm based on transmission reach, our proposed algorithm shows the pot...
The world's hunger for connectivity appears to be endlessly growing, yet the capacity of the network...
This paper investigates the physical layer optimization as a means of improving the utilization of l...
Flex-grid optical networks have evolved as a near-future deployment option to facilitate dynamic and...
Abstract—Resource allocation for transport optical networks has traditionally used a transmission re...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
We describe a novel method for joint resource allocation in flexible-grid networks based on a nonlin...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended byoptimizing the...
This paper proposes a novel network planning strategy to jointly allocate physical layer resources t...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
This paper studies the routing, modulation format, and spectrum allocation problem in elastic fiber-...
Maximum data throughput of an optical communications link and mesh network, operating in the nonline...
Abstract—A low-complexity model for signal quality pre-diction in a nonlinear fiber-optical network ...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
The world's hunger for connectivity appears to be endlessly growing, yet the capacity of the network...
This paper investigates the physical layer optimization as a means of improving the utilization of l...
Flex-grid optical networks have evolved as a near-future deployment option to facilitate dynamic and...
Abstract—Resource allocation for transport optical networks has traditionally used a transmission re...
In this paper, we study the joint resource allocation in flexible-grid networks based on a nonlinear...
We describe a novel method for joint resource allocation in flexible-grid networks based on a nonlin...
As the backbone of modern communications, the optical networks are anticipated to provide higher dat...
The routing and spectrum assignment in nonlinear flexible-grid networks is extended byoptimizing the...
This paper proposes a novel network planning strategy to jointly allocate physical layer resources t...
Efficient resource utilization with a satisfying quality of service is the key to high capacity in f...
A low-complexity model for signal quality prediction in a nonlinear fiber-optic network is developed...
This paper studies the routing, modulation format, and spectrum allocation problem in elastic fiber-...
Maximum data throughput of an optical communications link and mesh network, operating in the nonline...
Abstract—A low-complexity model for signal quality pre-diction in a nonlinear fiber-optical network ...
We investigate the optimization of routing, modulation format adaptation, spectral and launch power ...
The world's hunger for connectivity appears to be endlessly growing, yet the capacity of the network...
This paper investigates the physical layer optimization as a means of improving the utilization of l...
Flex-grid optical networks have evolved as a near-future deployment option to facilitate dynamic and...