In transparent (and translucent) optical networks, physical layer impairments (PLIs) incurred by nonideal optical transmission media accumulate along an optical path, and the overall effect determines the feasibility of the lightpaths. If the received signal quality is not within the receiver sensitivity threshold, the receiver may not be able to correctly detect the optical signal, and this may result in high bit-error rates. Introducing optical transparency in the physical layer reduces the possibility of client layer interaction with the optical layer at intermediate nodes along the path. The standard GMPLS protocols used for dynamic establishment of lightpaths in transparent/translucent optical networks suffer from lack of PLI informati...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
GMPLS-based transparent optical networks suffer from accumulation of physical layer impairments (PLI...
In GMPLS-based transparent optical networks, the switching and routing functionalities are performed...
Standard GMPLS protocols used for dynamic establishment of lightpaths in transparent optical network...
We demonstrate the need for GMPLS-based impairment-aware control plane and related mechanisms to rea...
In transparent optical networks, physical layer impairments (PLIs) incurred by non-ideal optical tra...
In transparent optical networks, the signal experiences the impact of various phenomena that degrade...
Transmission impairments in wavelength-division- multiplexing (WDM) transparent optical networks acc...
This paper explores the solution space for extending the signaling protocol of a GMPLS control plane...
GMPLS-based transparent optical networks suffer from accumulation of physical layer impairments (PLI...
We propose a hybrid control plane architecture, in which both RSVP-TE and OSPF-TE are extended to ca...
Core networks of the future will have a translucent and eventually transparent optical structure. Ul...
Abstract—In WDM optical networks, the physical layer im-pairments (PLIs) and their significance depe...
The current GMPLS control plane suffers from a lack of physical layer details, which is essential to...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
GMPLS-based transparent optical networks suffer from accumulation of physical layer impairments (PLI...
In GMPLS-based transparent optical networks, the switching and routing functionalities are performed...
Standard GMPLS protocols used for dynamic establishment of lightpaths in transparent optical network...
We demonstrate the need for GMPLS-based impairment-aware control plane and related mechanisms to rea...
In transparent optical networks, physical layer impairments (PLIs) incurred by non-ideal optical tra...
In transparent optical networks, the signal experiences the impact of various phenomena that degrade...
Transmission impairments in wavelength-division- multiplexing (WDM) transparent optical networks acc...
This paper explores the solution space for extending the signaling protocol of a GMPLS control plane...
GMPLS-based transparent optical networks suffer from accumulation of physical layer impairments (PLI...
We propose a hybrid control plane architecture, in which both RSVP-TE and OSPF-TE are extended to ca...
Core networks of the future will have a translucent and eventually transparent optical structure. Ul...
Abstract—In WDM optical networks, the physical layer im-pairments (PLIs) and their significance depe...
The current GMPLS control plane suffers from a lack of physical layer details, which is essential to...
Optical networks are moving from opaque and translucnet architectures towards all-optical (transpare...
This paper presents some recent developments in cross-layer approaches for planning and operating im...
GMPLS-based transparent optical networks suffer from accumulation of physical layer impairments (PLI...