Add to ORKGIn transparent optical networks with no regeneration, the problem of capacity allocation to traffic demands is called "Roting and Wavelength Assignment". Much work on this topic recently has focused on the dynamic case, whereby demands arrive and must be served in real-time. In addition, due to lack of regeneration, physical impairments accumulate as light propagates and QoT may become inappropiate (e.g., too high Bit Error Rate). Considering the physical layer impairments in the network planning phase gives rise to a class of RWA algorithms: offline Physical Layer Impairment Aware- (PLIA-)RWA. This paper makes a survey of such algorithms, proposes a taxonomy, and a comparison between these algorithms for common metrics. We also propose a n...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
Abstract—In translucent optical networks the physical layer impairments degrading the optical signal...
Abstract—Physical layer impairments (PLIs) need to be considered in the routing and wavelength assig...
In transparent optical networks with no regeneration, the problem of capacity allocation to traffic ...
Abstract—In transparent optical networks with no regenera-tion, the problem of capacity allocation t...
Physical layer impairments accumulate as light propagates through a lightpath in the transparent opt...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
In all-optical networks the physical layer impairments accumulate along a lightpath and also vary dy...
Transparent optical networks are the enabling infrastructure for converged multi-granular networks i...
In translucent optical networks the physical layer impairments degrading the optical signal are cons...
In translucent optical networks the physical layer impairments degrading the optical signal are cons...
We devised a probabilistic model to compute the number of used wavelengths in every link of a transp...
Abstract—Physical impairments in long-haul optical net-works mandate that optical signals be regener...
We devised a probabilistic model to compute the number of used wavelengths in every link of a transp...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
Abstract—In translucent optical networks the physical layer impairments degrading the optical signal...
Abstract—Physical layer impairments (PLIs) need to be considered in the routing and wavelength assig...
In transparent optical networks with no regeneration, the problem of capacity allocation to traffic ...
Abstract—In transparent optical networks with no regenera-tion, the problem of capacity allocation t...
Physical layer impairments accumulate as light propagates through a lightpath in the transparent opt...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
In all-optical networks the physical layer impairments accumulate along a lightpath and also vary dy...
Transparent optical networks are the enabling infrastructure for converged multi-granular networks i...
In translucent optical networks the physical layer impairments degrading the optical signal are cons...
In translucent optical networks the physical layer impairments degrading the optical signal are cons...
We devised a probabilistic model to compute the number of used wavelengths in every link of a transp...
Abstract—Physical impairments in long-haul optical net-works mandate that optical signals be regener...
We devised a probabilistic model to compute the number of used wavelengths in every link of a transp...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
Abstract—In translucent optical networks the physical layer impairments degrading the optical signal...
Abstract—Physical layer impairments (PLIs) need to be considered in the routing and wavelength assig...