This paper proposes an alternate approach to fully transparent and fully opaque optical networks for operating a wavelength routed optical network. In this paper, the architecture of the regeneration node that performs sparse regeneration (or translucency) is discussed. The regeneration demands generated from call blocking and signal quality requirements are addressed. Two implementation strategies for incorporating sparse regeneration are introduced and their relative merits are studied
The evolution of optical technologies has paved the way to the migration from opaque optical network...
Abstract—This paper presents new analytical models for computing the blocking performance of translu...
Physical impairments, such as noise and signal distortions, negatively affect the quality of informa...
This paper proposes an alternate approach to fully transparent and fully opaque optical networks for...
Translucent WDM optical networks use sparse placement of regenerators to overcome the impairments an...
A wavelength-routed optical network consists of multi-wavelength crossconnect switches (XCSs) which ...
Translucent wavelength-division multiplexing optical networks use sparse placement of regenerators t...
Abstract- Translucent WDM optical networks use sparse placement of regenerators to overcome the impa...
Abstract: A Mixed Line Rate (MLR) optical network is a good candidate for a core back-bone network b...
Wavelength-division multiplexing (WDM technology allows the transport in parallel of several high-sp...
Due to transmission impairments, optical regeneration is needed to extend the length of a lightpath ...
We evaluate the performance of optical network designs using relatively few switch nodes at which wa...
We discuss the problem of designing translucent optical networks composed of restorable, transparent...
This paper presents new analytical models for computing the blocking performance of translucent opti...
This paper identifies the sources of inefficiency for both transparent and opaque networks. The disp...
The evolution of optical technologies has paved the way to the migration from opaque optical network...
Abstract—This paper presents new analytical models for computing the blocking performance of translu...
Physical impairments, such as noise and signal distortions, negatively affect the quality of informa...
This paper proposes an alternate approach to fully transparent and fully opaque optical networks for...
Translucent WDM optical networks use sparse placement of regenerators to overcome the impairments an...
A wavelength-routed optical network consists of multi-wavelength crossconnect switches (XCSs) which ...
Translucent wavelength-division multiplexing optical networks use sparse placement of regenerators t...
Abstract- Translucent WDM optical networks use sparse placement of regenerators to overcome the impa...
Abstract: A Mixed Line Rate (MLR) optical network is a good candidate for a core back-bone network b...
Wavelength-division multiplexing (WDM technology allows the transport in parallel of several high-sp...
Due to transmission impairments, optical regeneration is needed to extend the length of a lightpath ...
We evaluate the performance of optical network designs using relatively few switch nodes at which wa...
We discuss the problem of designing translucent optical networks composed of restorable, transparent...
This paper presents new analytical models for computing the blocking performance of translucent opti...
This paper identifies the sources of inefficiency for both transparent and opaque networks. The disp...
The evolution of optical technologies has paved the way to the migration from opaque optical network...
Abstract—This paper presents new analytical models for computing the blocking performance of translu...
Physical impairments, such as noise and signal distortions, negatively affect the quality of informa...