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okay thank you all for being here and the beginning of the day um just
the very briefly seems to be an annual word really hated yeah well my
development of a cardio kind of was a mix of uh industry and academia so first you that's what wondering
that is not really right around where you can go to industry combat could even continued you work
however it happens sometimes it industry kind of profiles you what you wanna do and and like to
do so in my case it happened to be a high powered medium voltage megawatts collapse cooled
and these are the kind of projects i didn't deserve the very similar to the activities we do right now you know what
so we belong to school of engineering we are along the border to re and most importantly we're also
very well connected to the european landscape we're basically recogniser compared
to centre for european centre for products onyx and is
brings us seen up close contact to more than sixty to eighty companies new york
uh what we do or whatever says focuses it really goes from ah maybe
what i'll mention kinda closer to to characterisation in this case for us
it's most remote medics and a very productive materials with interest that we
focus a lot of menu conversion structures the menu compared to those
we don't create energy we cannot really sort of energy problem likely i think it would be a very good in very efficient in uh
convert the conversion of that energy and finally closer to baby but mario says we also go to the systems
so we're now lies about some systems which are who've penetrated with pollock trauma conversion
today that is more more that's uh some examples here that work or
related to the marine systems to the n. b. d. secrets which i consider the not you know what is implications
yeah it is yeah luckily we're also very well equipped so if you look into kind of facilities we're having it is uh
it's the most high power stuff so we can serve really needs of industry
and that brings us close to the really a big industries or project
or kind a good mix between the agencies so we worked all to come all three diseases with someone from ah
just but most of energy c. t. i.'s in itself but also large companies that is uh american g.
a. b. b. for switzerland or hiding day from korea we have also took it is with that
the most important person course unavailable p. h. d. students of these are the guys basically that some of your company's uh paying
uh to do work and it is right now with us on a night
beauty students in the lot and as a snap shot basically off well
all the process of apart and tries convert to design applications that is uh lots of simulations
to be done there are lots of riley takes there are lots of finite element modelling
calculating designing being sure that your system will actually operate the way like
and for many years hopefully so this is just one example project which
is part of a ecstasy arses computer centres for energy surge
we are working here now module conversion topology which is now being prototype to demonstrate the principles we
have uh also part of fire energy turn around energy project with this in the set
again we're looking basically into immersion crates into the d. c. current maybe walter
scott and kids and what kind of a conversion technology we have
these are always interesting things to work on because if something doesn't exist then really people don't know is that
you can x. situation is do we need first is this case when it technology to push things forward
this is one example for module are high frequency isolated typology that can that can be applied over there
we also uh as an asset projects where we're working with to maybe semiconductor
someone's work basically trying to understand devices such as i just c. d.
weekly to get accommodates barristers how they can be used for these emerging typology so we're building some
characterisation setups we are getting sample devices we we do a studies and that
finally ah automatics you cannot escape that impala tonics there and doctors there about that takes elements everywhere
this is just an example of a complete design team station process of a hundred people what
a transformer which is operated ten kilohertz and then basically prototype and test that the billion
so i'll you know way uh in a in a landscape of energy what we try to do in a in a lot of what
we are mostly focus of these really enabling technologies technologies for electrical
energy conversion storage and they're always interface they are part of
a pretty much completes market concept of uh our power system colleagues who
are in colleges for it then definitely we we are the

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Conference program

Marc Gruber, VP Innovation, EPFL
16 March 2017 · 9:04 a.m.
Jean-Michel Chardon, Logitech
16 March 2017 · 9:07 a.m.
Intro of S. Gautsch
Marc Gruber, VP Innovation, EPFL
16 March 2017 · 9:21 a.m.
Context and Logistics of the Industry Day
Sebastian Gautsch, STI-EPFL
16 March 2017 · 9:22 a.m.
Master Thesis in Industry Context
Pierre-André Besse, Adjunct VP Education, EPFL
16 March 2017 · 9:34 a.m.
Role of distributed energy storage in smart grids 
Mario Paolone, Distributed Electrical Systems Laboratory - EOS Holding Chair
16 March 2017 · 9:39 a.m.
Materials and nanostructures for next generation photovoltaics
Anna Fontcuberta, Laboratory of Semiconductor Materials
16 March 2017 · 9:46 a.m.
Medium Voltage High Power Electronics
Drazen Dujic, Power Electronics Laboratory
16 March 2017 · 9:50 a.m.
Ubiquitous high performance PV energy scavengers in all shapes and colors : from IOT to buildings 
Christophe Ballif, Photovoltaics and Thin Film Electronics Laboratory
16 March 2017 · 9:54 a.m.
Highly efficient and clean conversion in fuel cells & electrolysers
Jan van Herle, Group of Energy Materials GEM
16 March 2017 · 9:59 a.m.
Small electromechanical moving devices 
Paolo Germano, Integrated Actuators Laboratory
16 March 2017 · 10:06 a.m.
Novel actuation methods for reconfigurable soft robots
Jamie Paik, Reconfigurable Robotics Lab
16 March 2017 · 10:12 a.m.
Revolutionary optical tools for Ophthalmology 
Christophe Moser, Laboratory of Applied Photonics Devices
16 March 2017 · 10:18 a.m.
Mighty soft materials
Dario Floreano, Laboratory of Intelligent Systems
16 March 2017 · 10:29 a.m.
Intro words, VP Research
Andreas Mortensen, VP Recherche, EPFL
16 March 2017 · 11:18 a.m.
The endovirome, source of biomarkers and potentiel therapeutic targets
Didier Trono , Laboratory of Virology and Genetics
16 March 2017 · 11:23 a.m.
New strategies to fight infections, hidden in the human genome
Jacques Fellay , Fellay Group
16 March 2017 · 11:29 a.m.
Smart Wearables for the Medical IoT Context
David Atienza, Embedded Systems Laboratory
16 March 2017 · 11:33 a.m.
Rational protein design for vaccine development
Bruno Correia, Laboratory of Protein Design & Immunoengineering
16 March 2017 · 11:39 a.m.
Medical Image Analysis 
Jean-Philippe Thiran, Signal Processing Laboratory 5
16 March 2017 · 11:43 a.m.
Advanced Functional Fibers
Fabien Sorin, Laboratory of Photonic Materials and Fibre Devices
16 March 2017 · 11:51 a.m.
Production of amorphous particles
Esther Amstad, Soft Material Laboratory
16 March 2017 · 11:57 a.m.
Mechanobiology and tissue engineering
Dominique Pioletti, Laboratoire de biomécanique en orthopédie
16 March 2017 · noon
High Performance Elastomers, Thermoplastics, and Lubricative Coatings
Holger Frauenrath, Laboratory of Macromolecular and Organic Materials
16 March 2017 · 12:06 p.m.
Simple models for complex flows
François Gallaire, Laboratory of Fluid Mechanics and Instabilities
16 March 2017 · 12:11 p.m.
Présentation du partenaire Alliance
Roland Luthier, Directeur du Programme Alliance, EPFL
16 March 2017 · 12:17 p.m.
Présentation du partenaire FSRM
Philippe Fischer, FSRM
16 March 2017 · 12:21 p.m.
Présentation du partenaire Swissmem
Philippe Cordonier, Swissmem
16 March 2017 · 12:25 p.m.
Presentation of Innovaud
Jean-Michel Stauffer, Innovaud, Conseiller en Innovation
16 March 2017 · 1:46 p.m.
Gerben Boer, Arcoptix
16 March 2017 · 1:51 p.m.
Claude Forin, CEO
16 March 2017 · 1:55 p.m.
Denis Bubendorf, Unitechnologies
16 March 2017 · 1:59 p.m.
Etudiant EPFL
Firmin Manoury, Etudiant EPFL
16 March 2017 · 2:04 p.m.
ABB Sécheron
Pablo Furrer, ABB Sécheron
16 March 2017 · 2:09 p.m.
Martin Kusserow, Schindler
16 March 2017 · 2:14 p.m.
Stéphane Emery, CSEM
16 March 2017 · 2:21 p.m.
Adrien Briod, Flyability
16 March 2017 · 2:30 p.m.
Philippe Garrec, CEA
16 March 2017 · 2:35 p.m.
Meyer Burger / Pasan SA
Vahid Fakhfouri, Meyer Burger / Pasan SA
16 March 2017 · 2:41 p.m.
Mikron SA
Sylvie Leggiadro, Mikron SA
16 March 2017 · 2:46 p.m.
Etudiant EPFL
Luc Conti, Etudiant EPFL
16 March 2017 · 2:51 p.m.
Johnson & Johnson
Grégoire Veber, Johnson & Johnson
16 March 2017 · 2:55 p.m.
Danick Bionda , Micronarc
16 March 2017 · 4:01 p.m.
Nicolas Godel, Festo
16 March 2017 · 4:05 p.m.
Caroline Heid, Melexis
16 March 2017 · 4:14 p.m.
Etudiante EPFL
Sueda Turk, Etudiante EPFL
16 March 2017 · 4:19 p.m.
Maxon Motor
Olivier Chappuis, Maxon Motor
16 March 2017 · 4:24 p.m.
Philip Morris
Marja Talikka, Philip Morris
16 March 2017 · 4:30 p.m.
Radar Swiss
Radmila Belavina, Radar Swiss
16 March 2017 · 4:33 p.m.
Tag Heuer
Cyrill Cattin, Tag Heuer
16 March 2017 · 4:37 p.m.
Vidi Systems
Reto Wyss, Vidi Systems
16 March 2017 · 4:50 p.m.
Suss microoptics
Wilfried Noell, Suss microoptics
16 March 2017 · 4:55 p.m.
Gilles Hodel, Novelis
16 March 2017 · 4:59 p.m.
Fischer Connectors
Stéphane Rohrbach, Fischer Connectors
16 March 2017 · 5:04 p.m.
Etudiant EPFL
Maxime Valdemarin, Etudiant EPFL
16 March 2017 · 5:09 p.m.
Leonard Badet, Bobst
16 March 2017 · 5:14 p.m.
Stefano Battaglia, Frontiers
16 March 2017 · 5:19 p.m.
Hoël Guerin, Xsensio
16 March 2017 · 5:25 p.m.
Closing remarks
Sebastian Gautsch, STI-EPFL
16 March 2017 · 5:30 p.m.

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