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2012 Atelier Annuel de recherche de SYTACom

L’atelier annuel de recherche de SYTACom aura lieu le 4 septembre à Québec (QC).

On vous invite à participer à l’évènement qui présentera des conférenciers invités, une session de poster, un table ronde de participants industriels, ainsi qu’un vin et fromage networking industrie/étudiant.


Transport :

Le transport en autobus de / vers la ville de Québec pour les participants inscrits seront fournis par SYTACom. Les autobus partiront à 7h00 le mardi, Septembre 4, retour à Montréal à environ 20h00.

Lieu de départ sera envoyé aux participants inscrits via e-mail.


* Un programme provisoire.

7:00 Buses leave from Montreal  
10:15 - 10:30 Welcome and opening remarks  
10:30 - 11:15 Special optical Fibers and Nanostructured glasses: Research and developments of new technologies Younès Messaddeq
Canada Excellence Research Chair in Enabling Photonic Innovations for Information and Communication
Centre d’optique, photonique et laser (COPL), Université Laval
11:15 - 11:30 Coffee Break  
11:30 - 12:15 Roadways for Advancing Cellular Communications Gerhard Fettweis
Vodafone Chair Mobile Communications Systems
Technische Universität Dresden
12:15 - 13:15 Buffet Lunch  
13:15 - 14:15 Industry Panel Commercialization of Technology
14:15 - 16:00 Student research poster session  
14:15 - 16:00 Industry recruiting/networking Wine and Cheese reception Industry participants:
Agilent
Ciena
Huawei
InterDigital
Lyrtech
National Instruments
TeraXion
16:30 Buses return to Montreal  

Programme (88 kb)

ABSTRACTS

Special optical Fibers and Nanostructured glasses: Research and developments of new technologies
Prof. Y. Messaddeq, Centre d’optique, photonique et laser (COPL), Université Laval

ABSTRACT: The main issues and greatest challenges for the development of new photonic glasses are related to several aspects, from their synthesis to their shaping and integration into photonic devices.

Nowadays, although the Holy Grail of glass science still remains the reduction of the intrinsic losses of infrared glasses to their theoretical limits, two new drivers have arisen in recent years for the exploration and development of new technologies related to glass science: i) the photonic band-gap effect and ii) the production of nanostructured materials.

Based on these aspects, we will discuss on the development of novel optical glasses, namely heavy oxide and chalcogenide glasses and their impact on various fields of application such as information technology, environmental monitoring, biomedical devices and security/defence.

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Roadways for Advancing Cellular Communications
Gerhard Fettweis, Vodafone Chair Mobile Communications Systems, Technische Universität Dresden

Cellular communications has been advancing rapidly, achieving increases in data rates of one order of magnitude every 5 years. Will this continue, and for how long? Next to increasing the data rate, what are other new challenges which can be served by a new development in cellular communications?

This talk addresses these questions, and points out technical challenges of fifth generation wireless communications principles which have to be met by future research results. First promising research results show that the challenges will be met, even if most questions remain unanswered at this point in time.

Within a fifth generation cellular world, wireless communications systems will take on an even more important role in the future infrastructure of societies than today.

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conception web: JJ-LOGIC