International audienceThis paper surveys the theoretical results obtained for wavelength{routing all{optical networks, presents some new results and proposes several open problems. In all{optical networks the vast bandwidth available is utilized through wavelength division multiplexing: a single physical optical link can carry several logical signals, provided that they are transmitted on di erent wavelengths. The information, once transmitted as light, reaches its destination without being converted to electronic form inbetween, thus reaching high communication speed. We consider both networks with arbitrary topologies and particular networks of practical interest
Caption title.Includes bibliographical references (p. [2]).Supported by the NSF. NCR-9206379 Support...
With wavelength division multiplexing (WDM) several optical signals can be transferred in a single o...
AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that ...
We survey the theoretical results obtained for wavelength routing in all--optical networks, present ...
International audienceThis paper surveys the theoretical results obtained for wavelength{routing all...
This thesis is mainly devoted to the study of "communication in wavelength multiplexed optical netwo...
We study the problem of allocating optical bandwidth to sets of communication requests in all-optica...
This paper surveys theoretical results for wavelength--routing in all-- optical networks and present...
AbstractThis paper studies the problems of One-to-All and All-to-All Communication in optical networ...
The internet is composed of thousands of networks, linking millions of users at academic, industrial...
AbstractWe give theoretical results obtained for wavelength routings in certain all-optical networks...
SIGLEAvailable from INIST (FR), Document Supply Service, under shelf-number : 14802 E, issue : a.199...
This article discusses the possible applications for optical networks based on wavelength division m...
In optical networks, the vast bandwidth available in an optical bre may be utilized by splitting it ...
We consider the problem of routing and assignment of wavelength (RAW) in optical networks. Given a s...
Caption title.Includes bibliographical references (p. [2]).Supported by the NSF. NCR-9206379 Support...
With wavelength division multiplexing (WDM) several optical signals can be transferred in a single o...
AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that ...
We survey the theoretical results obtained for wavelength routing in all--optical networks, present ...
International audienceThis paper surveys the theoretical results obtained for wavelength{routing all...
This thesis is mainly devoted to the study of "communication in wavelength multiplexed optical netwo...
We study the problem of allocating optical bandwidth to sets of communication requests in all-optica...
This paper surveys theoretical results for wavelength--routing in all-- optical networks and present...
AbstractThis paper studies the problems of One-to-All and All-to-All Communication in optical networ...
The internet is composed of thousands of networks, linking millions of users at academic, industrial...
AbstractWe give theoretical results obtained for wavelength routings in certain all-optical networks...
SIGLEAvailable from INIST (FR), Document Supply Service, under shelf-number : 14802 E, issue : a.199...
This article discusses the possible applications for optical networks based on wavelength division m...
In optical networks, the vast bandwidth available in an optical bre may be utilized by splitting it ...
We consider the problem of routing and assignment of wavelength (RAW) in optical networks. Given a s...
Caption title.Includes bibliographical references (p. [2]).Supported by the NSF. NCR-9206379 Support...
With wavelength division multiplexing (WDM) several optical signals can be transferred in a single o...
AbstractWe consider optical networks with routing by wavelength division multiplexing. We show that ...