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SUMMARY:Workshop on Biomedical Microelectronic Translational Systems Resea
 rch
DTSTART;VALUE=DATE:20140826
DTSTAMP:20260501T093228Z
UID:d7212bbbaccc8266bd41eccf5757ee1fe28d0511b24d9356902bda69
CATEGORIES:Conferences - Seminars
DESCRIPTION:A range of international experts in the domain\nSpeakers: Chun
 g-Yu (Peter) Wu\, NCTU\, TW\nGiovanni De Micheli\, EPFL\nYue-Loong Hsin\, 
 CSMU\, TW\nBruno Herbelin\, EPFL\nHerming Chiueh\, NCTU\, TW\nSilvestro Mi
 cera\, EPFL\nCarlotta Guiducci\, EPFL\nFu-Zen Shaw\, NCKU\, TW\nStéphanie
  Lacour\, EPFL\nMorris (Ming-Dou) Ker\, NCTU\, TW\nChristian Enz\, EPFL\nS
 heng-Fu Liang\, NCKU\, TW\nCatherine Dehollain\, EPFL\nHarald Van Lintel\,
  EPFL\nAlexandre Schmid\, EPFL\nResearch on fundamental properties and col
 laborative operation of neo-cortical microcircuitry has accelerated in the
  recent years\, driven by the conviction that a deeper understanding of hu
 man brain will open the way to the development of new medical techniques. 
 Microelectronics\, as well as very large-scale integration (VLSI) have rea
 ched a state of maturity\, where a single chip provides large amounts of c
 omputing power density\, still leaving open questions in terms of power co
 nsumption\, and thermal power dissipation. Recent attempts in combining th
 ese two fields of investigation have successfully demonstrated the possibl
 e implementation of some form of mutual responsiveness between microelectr
 onic circuitry and living matter. New hardware tools are being developed\,
  enabling neuro-physiological experiments to be conducted in vitro\, as we
 ll as in vivo\, recently including human implantation of semi-permanent mi
 croelectronic systems.\nExperts from The National Chiao Tung and National 
 Cheng Kung Universities\, TW\, The Ecole Polytechnique Fédérale de Lausa
 nne EPFL\, CH\, and the Nano-Tera.ch community gather at the WBMTSR-2014 W
 orkshop on Biomedical Microelectronic Translational Systems Research on th
 e EPFL\, Lausanne campus to present their latest results. The themes of th
 e Workshop include but are not limited to:\n		Biomedical circuits and syst
 ems\, bioelectronic interfaces\, in-vivo/in-vitro applications\n	\n		Impla
 ntable systems\, design\, packaging\, implantation techniques\, practical 
 experiences\n	\n		Neuroprosthetic systems\, control and implementations\n	
 \n		Bio-medical and bio-electronics translational research\n
LOCATION:BC 01 https://plan.epfl.ch/?room==BC%2001
STATUS:CONFIRMED
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