AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that wavelength switching is unnecessary in routings where communication paths use at most two edges. We then exhibit routings in some explicit pseudo-random graphs, showing that they achieve optimal performance subject to constraints on the number of edges and the maximal degree. We also observe the relative inefficiency of planar networks
Abstract. In this paper we study permutation routing techniques for all-optical networks. Firstly, w...
This paper considers optical networks which employ wavelength-routing switches that enable the estab...
Wavelength Division Multiplexing (WDM) is the dominant transport technology used in numerous high ca...
AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that ...
We study the problem of allocating optical bandwidth to sets of communication requests in all-optica...
AbstractWe consider all-optical networks that use wavelength-division multiplexing and employ wavele...
In optical networks, the vast bandwidth available in an optical bre may be utilized by splitting it ...
Communication in all-optical networks requires novel routing strategies. The high bandwidth of the o...
International audienceThis paper surveys the theoretical results obtained for wavelength{routing all...
AbstractWe give theoretical results obtained for wavelength routings in certain all-optical networks...
In many models of optical routing, we are given a set of communication paths in a network, and we mu...
This paper surveys theoretical results for wavelength--routing in all-- optical networks and present...
With wavelength division multiplexing (WDM) several optical signals can be transferred in a single o...
AbstractWe consider the problem of routing uniform communication instances in switched optical rings...
We study the use of limited wavelength conversion in order to increase bandwidth utilization in WDM ...
Abstract. In this paper we study permutation routing techniques for all-optical networks. Firstly, w...
This paper considers optical networks which employ wavelength-routing switches that enable the estab...
Wavelength Division Multiplexing (WDM) is the dominant transport technology used in numerous high ca...
AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that ...
We study the problem of allocating optical bandwidth to sets of communication requests in all-optica...
AbstractWe consider all-optical networks that use wavelength-division multiplexing and employ wavele...
In optical networks, the vast bandwidth available in an optical bre may be utilized by splitting it ...
Communication in all-optical networks requires novel routing strategies. The high bandwidth of the o...
International audienceThis paper surveys the theoretical results obtained for wavelength{routing all...
AbstractWe give theoretical results obtained for wavelength routings in certain all-optical networks...
In many models of optical routing, we are given a set of communication paths in a network, and we mu...
This paper surveys theoretical results for wavelength--routing in all-- optical networks and present...
With wavelength division multiplexing (WDM) several optical signals can be transferred in a single o...
AbstractWe consider the problem of routing uniform communication instances in switched optical rings...
We study the use of limited wavelength conversion in order to increase bandwidth utilization in WDM ...
Abstract. In this paper we study permutation routing techniques for all-optical networks. Firstly, w...
This paper considers optical networks which employ wavelength-routing switches that enable the estab...
Wavelength Division Multiplexing (WDM) is the dominant transport technology used in numerous high ca...