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X-WR-CALNAME;VALUE=TEXT:Séminaire LIP6
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SUMMARY:[Séminaire SYEL] Benoît Gosselin (Univ. Laval) : Toward Int
 elligent Closed-Loop Bioelectronic Systems: Bridging Circuits, Intell
 igence, and Biology
ORGANIZER;CN=Bertrand Granado:MAILTO:bertrand.granado@sorbonne-univer
 site.fr
ATTENDEE;CN=Benoît Gosselin, Professeur à l’université de Laval
  à Québec;CUTYPE=INDIVIDUAL;PARTSTAT=ACCEPTED:mailto:bertrand.grana
 do@sorbonne-universite.fr
DESCRIPTION:Benoît Gosselin, Professeur à l’université Laval à 
 Québec et invité durant le mois de Juillet au LIP6, donnera un expo
 sé dont le titre est "Toward Intelligent Closed-Loop Bioelectronic S
 ystems: Bridging Circuits, Intelligence, and Biology".
  L'exposé aur
 a lieu le vendredi 10 juillet à 10h30 en présentiel en salle 405, c
 ouloir 24/25
  Abstract: 
 The next generation of biomedical technologi
 es will move beyond passive monitoring toward systems capable of inte
 racting intelligently with the human body. This talk explores how int
 egrated circuits are at the core of this transformation, enabling a n
 ew class of bioelectronic systems that can sense, interpret, and act 
 in real time.
 We present a unified research vision spanning neurotech
 nology, intelligent prosthetics, physiological sensing, and wireless 
 systems. At the heart of this work is the development of closed-loop 
 platforms that combine neural recording, embedded machine learning, a
 nd targeted actuation, illustrated through applications such as optog
 enetic spinal implants for chronic pain modulation and high-resolutio
 n interfaces for intuitive prosthetic control.
 These systems rely on 
 advances across multiple layers, including ultra-low-power sensing ci
 rcuits, on-device intelligence, and energy-efficient RF communication
 . By tightly integrating these components, it becomes possible to mov
 e from data acquisition to adaptive intervention, enabling precise an
 d personalized therapies.
 Ultimately, this convergence of circuits, s
 ystems, and biology is redefining how we interact with living systems
 , opening the door to intelligent biomedical technologies that can re
 store function, enhance autonomy, and transform patient care.
  Bio:
 B
 enoit Gosselin, PhD, ing.
 FCAE, SMIEEE | Full professor | Department 
 of Electrical and Computer Engineering | Université Laval
 Canada Res
 earch Chair in Smart Biomedical Microsystems
 Associate Editor, IEEE S
 ensors Journal, IEEE Transactions on Biomedical Engineering, Neuroele
 ctronics
 Chapter Chair, Quebec IEEE EMBS/CASS Chapter
 URL: http://www
 .biomicrosystems.ca/
  Expertise: wireless microsystems for brain–ma
 chine interfaces; analog/mixed-signal and RF integrated circuits for 
 neural engineering; interface circuits for implantable sensors and ac
 tuators; and intelligent systems for personalized healthcare.
 Benoit 
 Gosselin received his Ph.D. in Electrical Engineering from École Pol
 ytechnique de Montréal, Montréal, QC, Canada, in 2009. He was an NS
 ERC postdoctoral fellow at the Georgia Institute of Technology, Atlan
 ta, GA, USA, in 2010. He is currently a Full Professor in the Departm
 ent of Electrical and Computer Engineering at Université Laval, Qué
 bec, QC, Canada, where he holds a Canada Research Chair in Smart Biom
 edical Microsystems. His research focuses on the development of intel
 ligent healthcare systems and innovative tools for neuroscience.
 Prof
 essor Gosselin has led major research initiatives aimed at developing
  cutting-edge technologies to improve therapeutic approaches for neur
 odegenerative diseases, notably by enabling detailed observation of b
 rain dynamics in living animal models. His innovations integrate opto
 genetics, electrophysiology, fiber photometry, and spectroscopy into 
 miniaturized instrumentation platforms. Another focus of his work is 
 the development of intelligent controllers for hand prostheses based 
 on high-density electromyography sensing, powered by data-driven arti
 ficial intelligence.
 Professor Gosselin is a Fellow of the Canadian A
 cademy of Engineering and has received several major distinctions, in
 cluding the NSERC Brockhouse Canada Prize, the OIQ Génie Innovation 
 Award, and the First Prize Best Paper Award (2022) from the IEEE Engi
 neering in Medicine and Biology Society. He is the founder and chair 
 of the IEEE CAS/EMB Quebec joint chapter and has served on the organi
 zing committees of numerous IEEE international conferences, including
  NEWCAS (General Chair, 2022; Technical Program Chair, 2019, 2021), E
 MBC (Program Chair, 2020), BioCAS, and ISCAS. He also serves as an As
 sociate Editor for IEEE Transactions on Biomedical Engineering (202
 5–present) and IEEE Sensors Journal (2022–present), and previousl
 y for IEEE Transactions on Biomedical Circuits and Systems (2016–20
 23).
  Lieu du séminaire : LIP6, Salle 405, Couloir 24/25, Sorbonne U
 niversité, Campus Pierre et Marie Curie, 4 place Jussieu, 75005 Paris
DTSTAMP:20260702T082717Z
DTSTART;TZID=Europe/Paris:20260710T103000
DURATION:PT2H
URL;VALUE=URI:https://www.lip6.fr/liens/organise-fiche.php?ident=O1249
UID:LIP6/SEM/O1249
LOCATION:Campus Jussieu, salle Gérard Noguez (24-25/405)
GEO:48.847449;2.355255
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