| Title | Cited by | Year |
|---|---|---|
| In vitro large-scale experimental and theoretical studies for the realization of bi-directional brain-prostheses Frontiers in neural circuits 7, 40, 2013 | 55 | 2013 |
| Real-time biomimetic central pattern generators in an FPGA for hybrid experiments Frontiers in neuroscience 7, 215, 2013 | 52 | 2013 |
| Tunable neuromimetic integrated system for emulating cortical neuron models Frontiers in NEUROSCIENCE 5, 134, 2011 | 34 | 2011 |
| Generation of locomotor-like activity in the isolated rat spinal cord using intraspinal electrical microstimulation driven by a digital neuromorphic CPG Frontiers in neuroscience 10, 67, 2016 | 20 | 2016 |
| Neuromimetic integrated circuits VLSI Circuits for Biomedical Applications, 241-264, 2008 | 19 | 2008 |
Publications
A1 – International journals
[22] Levi T, Nanami T, Tange A, Aihara K, Kohno T, Development and Applications of
Biomimetic Neuronal Networks Toward BrainMorphic
Artificial Intelligence, IEEE Transactions on Circuits and Systems II, 65:5, 577-581,
May 2018
[21] Leleu
T, Levi T, Kohno T, Aihara K, Network
structure reconstruction using packets of spikes in cultured neuronal networks
coupled to microelectrode arrays, Journal
of Nonlinear Theory and Its Applications, IEICE NOLTA, 9:2, April 2018
[20] Levi T,
Khoyratee F, Saighi S, Ikeuchi Y, Digital implementation of Hodgkin–Huxley neuron
model for neurological diseases studies, Journal
on Artificial Life and Robotics, 23:1, 10-14, March 2018, IF=0,450
[19] Levi T,
Bonifazi P, Massobrio P, Chiappalone M, Closed-Loop Systems for Next-Generation
Neuroprostheses, Frontiers in Neuroscience, 12, 2018, IF=3,566
[18] Grassia F, Levi T, Doukkali
E, Kohno T, Spike pattern recognition using artificial neuron and
spike-timing-dependent plasticity implemented on a multi-core embedded platform, Journal on Artificial Life and Robotics,
23:2, 200-204, June 2018, IF=0,450
[17] Kawada J, Kaneda S,
Kirihara T, Maroof A, Levi T, Eggan K, Fujii T, Ikeuchi Y, Generation of
a Motor Nerve Organoid with Human Stem Cell-Derived Neurons, Stem Cell Report, 9:5, 1441-1449,
November 2017, IF=7,508
[16] Ambroise M, Buccelli S, Grassia F, Pirog A, Bornat Y, Chiappalone M, Levi T, Biomimetic neural
network for modifying biological dynamics during hybrid experiments, Journal on Artificial Life and Robotics,
22:3, 398-403, September 2017, IF=0,450
[15] Grassia F, Kohno T, Levi T, Digital hardware
implementation of a stochastic two-dimensional neuron model, Journal of Physiology-Paris, February
2017, IF=2,704
[14] Levi T
and Fujii T, Microfluidic neurons: a new way in
neuromorphic engineering?, Micromachines, 7:146, August 2016,
IF=1,918
[13] Joucla
S, Ambroise M, Levi T, Lafon T, Chauvet P, Saïghi S, Bornat Y, Lewis N,
Renaud S and Yvert B, Generation of Locomotor-Like
Activity in the Isolated Rat Spinal Cord Using Intraspinal Electrical Microstimulation Driven by a Digital Neuromorphic CPG. Frontiers in Neurosciences, 10:67 February
2016, IF=3,566
[12] Levi T and Fujii
T, Microfluidic device that mimics neurons, Seisan Kenkyu, 67:5, 517-519, October 2015
[11] Levi T, Ambroise
M, Grassia F, Kohno T and Saighi
S, Digital Spiking Neural Network for closed-loop systems, Seisan Kenkyu, 67:5, 573-579, October 2015
[10] Grassia
F, Levi T,
Kohno T and Saighi S, Silicon neuron: digital
hardware implementation of the quartic model, Journal of Artificial Life and Robotics, Springer, 19:3, 215-219,
November 2014, IF=0,450
[9] Ambroise
M, Levi T, Joucla S, Yvert B and Saïghi S, Real-time
biomimetic Central Pattern Generators in an FPGA for hybrid experiments. Frontiers in Neurosciences, 7:215, November 2013, IF=3,566
[8] Bonifazi
P, Difato F, Massobrio P, Breschi GL, Pasquale V, Levi T, Goldin M, Bornat Y, Tedesco M, Bisio M, Kanner S, Galron R, Tessadori J, Taverna S and Chiappalone
M, In vitro large-scale experimental and theoretical studies for the
realization of bi-directional brain-prostheses. Frontiers in Neural Circuits, 7:40, March 2013, IF=3,005
[7] Levi T, Lewis N, Tomas J and Renaud S,
Application of IP-based Analog Platforms in the design of Neuromimetic
Integrated Circuits, IEEE Transactions on
Computer-Aided Design of Integrated Circuits and Systems, 31:11, 1629-1641, November 2012, IF=1,942
[6] Grassia F, Levi T, Saighi S and Kohno T, Bifurcation
analysis in a silicon neuron, Journal of
Artificial Life and Robotics, Springer, 17:1, 53-58, October 2012, IF=0,450
[5] Grassia
F, Buhry L, Levi T, Tomas J, Destexhe
A and Saïghi S, Tunable neuromimetic integrated system for emulating cortical
neuron models. Frontiers in
Neurosciences, 5:134, December 2011, IF=3,566
[4] Baccar
S, Levi T, Dallet D, Qaisar S,
Shitikov V and Barbara F, Modeling
Methodology for Analog Front-End Circuits Dedicated to High-Temperature
Instrumentation and Measurement applications, IEEE Transactions on Instrumentation and Measurement, 60,
1555-1564, May 2011, IF=2,456
[3] Levi T, Tomas J, Lewis N and Fouillat P, A CMOS Resizing Methodology for Analog
Circuits: linear and non-linear applications, IEEE Journal Design and Test of Computer, 26, 78-87, Jan-feb 2009, IF=1,366
[2] Levi T, Beche
JF, Bonnet S and Guillemaud R, IP-based toolbox for digital signal processing
reuse: Application to Real-time Spike sorting, Design&Reuse Articles, n°21034, July 8th 2009
[1] Levi T, Lewis N, Tomas J and Fouillat P, IP-based design for analogue ASICs: A case
study, Design&Reuse Articles, n°15793, May 7th 2007
A2 – Book chapters
[7] Ambroise M, Joucla S, Yvert B, Saïghi S, Levi T, Central Pattern Generators (CPG) biomimétiques en temps-réel sur FPGA pour des expérimentations bio-hybrides, Ingénierie cognitique, Open Science, September 2017
[6] Grassia F, Kohno T, Levi T, Implémentation numérique de neurones biomimétiques stochastiques, Ingénierie Cognitique, OpenScience, September 2017
[5] Ambroise
M, Levi T, Saïghi S, Biomimetic
CPG, Biomimetic technologies Principles and Applications, edited by Dr Trung Dung Ngo, Elsevier, Chapter 15, August 2015
[4] Baccar S, Levi T, Dallet D,
Barbara F, Optimizing
Models Precision in High Temperature for an Efficient Analogue and Mixed-Signal
Circuits Design by Using Modern Behavioral Modeling Technique: an Industrial
Case Study, Computational Intelligence in Analog and Mixed-Signal (AMS) and
Radio-Frequency (RF) Circuit Design, Springer, Chapter 7, August 2015
[3] Beche JF, Levi
T, Charvet G, Billoin
O, Rousseau L, Rostaing J.P, Condemine
C, Bonnet S, Escola R, Kauffmann T, Yvert B, Guillemaud R, System
Architecture for Neural–Electrical Interface and Processing, Integrated
Microsystems Electronics, Photonics, and Biotechnology, Iniewski
Editor, CRC Press, 133-146, October 2011
[2] Levi T,
Méthodologie de réutilisation d’une bibliothèque d’IP-AMS, Editions
Universitaires Européennes, January 2011
[1] Levi T, Lewis N, Tomas J, Saighi
S, Renaud S, Bornat Y, Alvado
L, "Neuromimetic
Integrated Circuits", VLSI Circuits for Biomedical Applications, Iniewski Editor, July 2008
A3 – Patent
[1] Levi T, Beche JF, Bonnet and Escola R, Methods and Devices for processing pulse signals, and in particular
Neural Action Potential Signals, European
Patent Application EP2389103, filing date: December 12th 2008,
publication date: November 2011
B – International
conference papers
[58] Nishikawa S, Khyoratee F, Luo Z, Shiraishi T, Aihara K, Ikeuchi Y, Kim S-H, Fujii T, Levi T, Neurohybrid
system with Spiking Neural Network and biomimetic ionic microstimulation,
MicroTAS 2018, Taiwan, November 2018
[57] Khoyratee
F, Luo Z, Volette C-A, Benneteau
T, Beaubois R, Lange C, Aihara
K, Fujii T, Ikeuchi Y, Levi T,
Neuromimetic stimulation applied on cerebral
organoid, ISMM 2018, Busan, South Korea, June 2018
[56] Nishikawa S, Kim S-H, Ikeuchi Y, Fujii T, Levi T,
Biomimetic ionic microstimulation for neuron culture,
ISMM 2018, Busan, South Korea, June 2018
[55] Khoyratee
F, Benneteau T, Tixier-Mita
A, Saighi S, Levi T, Biohybrid experiments using tunable
real-time biomimetic neural network, ISMM 2018, Busan, South Korea, June 2018
[54] Levi T, Nanami T, Tange A, Aihara K, Kohno T,
Development and Applications of Biomimetic Neuronal Networks Toward BrainMorphic Artificial Intelligence, IEEE ISCAS 2018,
Florence, Italy, May 2018
[53] Khoyratee
F, Saighi S, Levi T, Real-time digital implementation of HH
neural network on FPGA: cortical neuron simulation, 23th International
Conference on Artificial Life and Robotics, ICAROB 2018, Beppu,
Japan, february 2018
[52] Leleu
T, Levi T,
Kohno T, Aihara K, Network structure reconstruction
using packets of spikes for ‘in vitro’ neuron culture on MicroElectrode
Arrays (MEA), 23th International Conference on Artificial Life and Robotics,
ICAROB 2018, Beppu, Japan, february
2018
[51] Levi T, Guo Y, Aihara
K, Kohno T, Study of real-time biomimetic CPG on FPGA: behavior and evolution,
23th International Conference on Artificial Life and Robotics, ICAROB 2018, Beppu, Japan, february 2018
[50] Nishikawa S, Kim SH, Luo Z, Kirihara T, Ikeuchi Y, Fujii T, Levi T, Biomimetic microfluidic neurons for
bio-hybrid experiments, 23th International Symposium on Artificial Life and
Robotics, Beppu, Japan, January 2018, Young Author Award
[49] Blanchard D, Faure PM, Ihida S, Kohno T, Toshiyoshi H, Levi T,
Tixier-Mita A, Stimulation/Control system for TFT
Array biosensor – Application to dielectrophoresis,
IEEE MEMS Conference 2018, Belfast, Northern Ireland, January 2018
[48] Nanami T, Grassia,
F, Blanco M, Aihara K, Kohno T, Levi T, Spike pattern recognition
using biomimetic Spiking Neural Network, SWARM 2017, Kyoto, October 2017
[47] Levi T, Spiking Neural Network for
bio-hybrid systems, Mathematical aspects of Topological phases of matter and
quantum computing, Sendai, Japan, July 2017
[46] Buccelli
S, , Tessadori J, Martines
L, Bornat Y, Levi T, Averna A, Difato
F, Colombi I, Tedesco M, Massobrio
P, Pasquale V, Chiappalone M, "Restoring lost communication between in vitro
neuronal assemblies", IEEE EMBS Neural Engineering
Conference, May 2017
[45] Levi T, Biomimetic neural networks
for hybrid experiments, The 2nd International Symposium on
Neuromorphic, non-linear, Neurofluidic Engineering, ISNNE
2017, Bordeaux, France, March 2017
[44] Khoyratee
F., Levi T.,
Saighi S., FPGA Implementation of the Hodgkin-Huxley
Model for Neurological Disease study, The 2nd International Symposium on
Neuromorphic, non-linear, Neurofluidic Engineering,
ISNNE 2017, Bordeaux, France, March 2017
[43] Ambroise
M, Buccelli S, Grassia F, Pirog A, Bornat Y, Chiappalone M, Levi T, "Biomimetic neural network for modifying biological dynamics during
hybrid experiments", 22th International Symposium on
Artificial Life and Robotics, Beppu, Japan, January
2017, Best
Paper Award
[42] Levi T, Khoyratee
F, Saighi S, Ikeuchi Y, "Digital implementation of Hodgkin-Huxley neuron
model for neurological diseases studies", 22th International Symposium on Artificial Life and Robotics, Beppu, Japan, January 2017
[41] Grassia
F, Levi T,
Doukkali E,
Kohno T, "Spike pattern recognition using
artificial neuron and Spike-Timing-Dependent Plasticity implemented on a
multi-core embedded platform", 22th
International Symposium on Artificial Life and Robotics, Beppu,
Japan, January 2017
[40] Levi T, "Biomimetic Spiking
Neural Network for Bio-hybrid experiments", Neurofluidics
2016, Grenoble, France, November 2016
[39] Buccelli
S, Tessadori J, Bornat Y,
Pasquale V, Ambroise M, Levi T, Massobrio
P, Chiappalone M, Connecting biological and artificial neural networks, MEA 2016,
Reutlingen, Germany, July 2016
[38] Levi T, Biomimetic Spiking Neural
Network for Neurological Studies, Neurogune 2016,
Bilbao, Spain, June 2016
[37] Levi T, Biomimetic neural network
for the new neuromorphic roadmap, Beyond CMOS, Munich, Germany, October 2015
[36] Levi T, Tixier-Mita
A, Ségard B-S, Toshiyoshi
H, Fujita H, Fujii T, Biomimetic microfluidic neuron
for hybrid experiments, MicroTAS 2015, Gyeongju, South Korea, October 2015
[35] Levi T, Araki A, Fujii T, Artificial biomimetic neuron on a microfluidic
device, 2015 Bridging Biomedical Worlds, from neural circuitry to
neurotechnology, Tokyo, Japan, May 2015
[34] Levi T, Araki A, Fujii T, Microfluidic neuron: a Neuromimetic
Approach to Interact with Biological Neurons, IEEE EMBS Micro and
Nanotechnology in Medecine conference, Hawaii, US,
December 2014
[33] Levi T, Ambroise
M, Grassia F, Malot O, Saighi S, Bornat Y, Tomas J,
Renaud S, Biomimetic neural networks for hybrid experiments, International
Symposium on Neuromorphic and Non-linear Engineering, ISNNE 2014, Tokyo, Japan,
February 2014
[32] Ambroise
M, Levi T,
Saighi S, Biomimetic CPG on FPGA for hybrid
experiments, International Symposium on Neuromorphic and Non-linear Engineering,
ISNNE 2014, Tokyo, Japan, February 2014
[31] Baccar
S, Levi T, Dallet D, Barbara F, Modeling and Simulation
of an Instrumentation Amplifier in High Temperature Using a VHDL-AMS Op-Amp
Model, NEWCAS 2014, Trois-Rivières, Canada, June 2014
[30] Levi T, Ambroise
M, Grassia F, Saighi S,
Kohno T, Kinoshita H, Fujii T, Biomimetic CPGs for
robotic applications, 19th International
Symposium on Artificial Life and Robotics, pp. 355-358, Beppu,
Japan, January 2014, Best Paper Award
[29] Grassia
F, Levi T,
Kohno T, Saighi S, Silicon neuron: digital hardware
implementation of the quartic model, 19th International Symposium on Artificial Life and Robotics, pp. 359-362, Beppu,
Japan, January 2014
[28] Levi T, Ambroise M, Grassia F, Kohno T, Conception d’un réseau de neurones du cœur de sangsue, Journées Francophones de la Recherche JFR 2013, Tokyo, Japon, November 2013
[27] Bonifazi
P, Massobrio P, Levi T, Difato
F, Breschi G, Pasquale V, Goldin M, Ambroise M, Bornat Y, Tedesco M, Bisio M, Frega M, Tessadori J, Nowak P, Grassia F, Kanner S, Ronit G, Renaud S, Martinoia
S, Taverna S, Chiappalone M, In vitro experimental
and theoretical studies to restore lost neuronal functions: the Brain Bow
experimental framework, 6th International
IEEE EMBS Conference on Neural Engineering, San Diego, US, November 2013
[26] Joucla
S, Ambroise M, Levi T, Lafon T, Chauvet P, Rousseau L, Lissorgues G, Saighi S, Bornat Y, Lewis N, Renaud S, Ybert
B, Generation of Locomotor-Like Activity in the Isolated Rat Spinal Cord by
Electrical Microstimulations Driven by an Artificial
CPG, 6th International IEEE EMBS
Conference on Neural Engineering, San Diego, US, November 2013
[25] Ambroise
M, Levi T,
Saighi S, Leech Heartbeat Neural Network on FPGA, Biomimetic
and biohybrid systems, Lecture notes in computer science, Vol. 8064, pp.
347-349, Living Machines 2013, London, UK, July 29 – August 2 2013
[24] Baccar
S, Levi T, Dallet D, Barbara F, Modeling and Simulation
of a Wheatstone Bridge Pressure Sensor in High Temperature with VHDL-AMS, 19th symposium IMEKO, Barcelona, Spain,
July 2013
[23] Ambroise M, Levi T, Bornat
Y, Saighi S, Biorealistic
Spiking Neural Network on FPGA, IEEE CISS
2013, Baltimore, US, March 2013
[22] Chiappalone M, Difato
F, Breschi G, Pasquale V, Bisio
M, Bornat Y, Massobrio P,
Levi T, Taverna S, Bonifazi P, Linking biological and
artificial neuronal assemblies to restore lost brain functions, Neuroscience 2012, New Orleans, US,
October 2012
[21] Baccar S, Levi T, Dallet
D, Shitikov V, Barbara F, A Validity Study of an Industrial SPICE based
Op-amp Macromodel for High-Temperature Simulation, IEEE I2MTC 2012, Graz, Austria, May 2012
[20] Grassia F, Levi T, Saighi
S, Kohno T, Bifurcation analysis in a silicon neuron, 17th International Symposium on Artificial Life
and Robotics, Beppu, Japan, January 2012
[19] Grassia F, Levi T, Tomas J, Renaud S, Saighi S, A Neuromimetic Spiking
Neural Network for Simulating Cortical Circuits, IEEE CISS 2011, Baltimore, US,
March 2011
[18] Baccar S, Levi T, Dallet
D, Shitikov V, Barbara F, A Behavioral and
Temperature Measurements-Based Modeling of an
Operational Amplifier Using VHDL-AMS, IEEE
ICECS 2010, Athens, Greece, December 12-15 2010
[17] Saighi
S, Levi T, Belhadj B, Malot O, Tomas J, Hardware System for Biologically
Realistic, Plastic, and Real-time Spiking Neural Network Simulations, IEEE IJCNN 2010, Barcelona, Spain, July
18-23 2010
[16] Baccar S, Quaisar
S-M, Levi T, Dallet D, Shitikov
V, Barbara F, Analog to Digital Converters for
High Temperature Applications: The Modeling Approach
Issue, IEEE I2MTC 2010, Austin, US,
May 3-6th 2010
[15] Levi T, Kohno T, Silicon Neural Network
Circuits for Smart-MEMs Systems, CMOS Emerging
Technologies 2009, Vancouver, Canada, September 23-25th 2009
[14] Beche
J-F, Bonnet S, Levi T, Escola R, Noca A, Charvet G, Guillemaud R, Real-Time
Adaptive Discrimination Threshold Estimation for Embedded Neural Signals
Detection, IEEE EMBS Neural Engineering
2009, Antalya, Turkey, April 29th - May 2nd 2009
[13] Levi T, Kohno T, Réseaux de neurones sur silicium : Conception et applications sur des MEMS, Journées Francophones de la Recherche JFR 2009, Tokyo, Japan, November 14th 2009
[12] Levi T, Neuromorphic Engineering, Science Dialogue, JSPS Quarterly,
Yokohama, Japan, August 18th 2009
[11] Levi T, Beche
J-F, Bonnet S, Guillemaud R, IP-based toolbox for
digital signal processing reuse: Application to Real-time Spike sorting, IP-based Design Conference 2008, IP
2008, Grenoble, France, December 3-4th 2008
[10] Levi T, Lewis N, Tomas J, Fouillat P, IP-based methodology for analog
design flow: Application on neuromorphic engineering, IEEE NEWSCAS-TAISA 2008, Montreal, Canada, June 22-25th
2008
[9] Beche
J-F, Levi T, Bonnet S, Escola R, Defontaine
A, Guillemaud R, Real-Time Embedded Signal Processing
for MEA-based Neurobiological recording Systems, MEA 2008, Reutlingen, Germany, May 8-11th 2008
[8] Levi T, Beche J-F, Bonnet S, Escola R, Defontaine A, Guillemaud R, Traitement du signal embarqué temps réel pour les systèmes d’enregistrement de signaux neuronaux, Journées Francophones de la Recherche JFR 2008, Tokyo, Japon, November 28th 2008
[7] Levi T, Tomas J, Lewis N, Fouillat P, Resizing methodology for CMOS analog circuit, SPIE Microtechnologies for the New Millenium 2007, Maspalomas,
Gran Canaria, Espagne, May
2-4th 2007
[6] Levi T, Tomas J, Lewis N, Fouillat P, IP-based design reuse for analogue systems: a case study, SPIE Microtechnologies
for the New Millenium 2007, Maspalomas,
Gran Canaria, Spain, May 2-4th 2007
[5] Levi T, Lewis N, Tomas J, Fouillat P, Scaling Guidelines for CMOS Linear Analog
Design, IEEE PRIME 2007, Bordeaux,
France, July 2-5th 2007
[4] Levi T, Lewis N, Bornat Y, Destexhe A, Tomas J, An IP-based library for the design of
analog Hodgkin Huxley neurons, Systems,
Signal and Devices Conference SSD 2007, Hammamet,
Tunisia, March 19-22th 2007
[3] Levi T, Lewis N, Tomas J, Fouillat P, IP-based design for analogue ASICs: A case
study, IP-based SoC Design Conference
2006, IP-SoC 2006, pp. 135-139, Grenoble, France, December 6-7th
2006
[2] Levi T, Lewis N, Tomas J, Fouillat P, Scaling Rules for MOS Analog Design Reuse, Mixed Design of Integrated Circuits and
Systems MIXDES 2006, pp 378-382, Gdynia, Poland, June 22-24th
2006
[1] Tomas J, Bornat
Y, Saighi S, Levi T, Renaud S, Design of a modular
and mixed neuromimetic ASIC, ICECS 2006, 13th IEEE International Conference on Electronics, Circuits
and Systems, pp. 946-949, Nice, France, December 10-13th 2006
C –National conference
papers
[17] Nishikawa S, Khoyratee F, Luo Z, Kim S-H, Aihara
K, Ikeuchi Y, Fujii T, Levi T,
Biohybrid system with spiking neural network and ionic microstimulation
microfluidic chip, Joint French Japanese technology and bioengineering against
liver disorders, CNRS JSPS Workshop, Tokyo, Japan, July 2018
[16] Kohno T, Levi T, Qualitative modeling based
approach for brain compatible silicon neuronal networks, GDR BioComp, Bordeaux, France, May 2018
[15] Khoyratee F, Saighi S, Levi T, Implémentation du modèle de Hodgkin-Huxley sur FPGA pour l’étude des maladies neurodégénératives, Journées Francophones de la Recherche JFR 2017, Tokyo, Japon, November 2017
[14] Nishikawa S, Kim S, Lu Z, Kirihara T, Ikeuchi Y., Fujii T, Levi T, Neurones Artificiels Microfluidiques pour des Expériences Bio-Hybrides, Journées Francophones de la Recherche JFR 2017, Tokyo, Japon, November 2017
[13] Khoyratee
F, Levi T,
Saighi S, FPGA Implementation of the Hodgkin-Huxley
Model for Neurological Disease study, JJC ICON, Bordeaux, Juillet
2017
[12] Khoyratee
F, Levi T,
Saighi S, FPGA Implementation of the Hodgkin-Huxley
Model for Neurological Disease study, GDR BioComp,
Lyon, October 2016
[11] Levi T, Microfluidic neuron: a new
way for neuromorphic research ?, GDR Microfluidique,
Paris, France, June 2016
[10] Levi T, NEUROPROTEST: Conception d’une plateforme de test pour les neuroprothèses, Workshop INSIS Electronique à l’interface avec le vivant, Paris, France, June 2016
[9] Levi T, Ambroise
M, Saighi S, Digital Biomimetic Spiking Neural
Network for closed-loop systems, GDR MultiElectrode systems for Neuroscience, Autrans, 5-8
Janvier 2016
[8] Ambroise
M, Levi T,
Saighi S, Leech heartbeat neural network on FPGA, Journées NeuroSTIC 2014,
Paris, 1-2 Juillet 2014
[7] Joucla
S, Ambroise M, Levi T, Lafon T, Chauvet P, Rousseau L, Lissorgues G, Saighi S, Bornat Y, Lewis N, Renaud S, Yvert
B, Generation of Locomotor-Like Activity in the Isolated Rat Spinal Cord by
Electrical Microstimulations Driven by an Artificial
CPG, GDR multielectrode systems & signal
processing for neuroscience, Bordeaux, France, Octobre
2013
[6] Baccar S, Levi T, Dallet D, Shitikov V, Barbara F, Etude de la validité d’un macromodèle industriel SPICE d’un amplificateur opérationnel pour une simulation en hautes températures, JNRDM 2012, 18-20 Juin 2012, Marseille, France
[5] Baccar S, Levi T, Dallet D, Modélisation Comportementale d’un Amplificateur Opérationnel en Hautes Températures, GDR SoC-SIP, Paris, France, Juin 2011
[4] Levi T, La microélectronique pour simuler les neurones, Conférences CPGE Brizeux, Quimper, France, 25 février 2011
[3] Levi T, Lewis N, Tomas J, Fouillat P, IP-Based Library for Analog Design Reuse, GDR SoC-SIP, Paris, France, 13-15 Juin 2007
[2] Lewis N, Bornat Y, Alvado L, Lopez C, Daouzli A, Levi T, Tomas J, Saighi S, Renaud S, PAX : un outil logiciel / matériel d'investigation pour les neurosciences computationnelles, NeuroComp, 1ère conférence française de Neurosciences Computationnelles, 171-174, Pont-à-Mousson, 23-24 octobre 2006
[1] Levi T, Implantation sur Silicium en Technologie CMOS d’un Modèle de Neurones, Journées Nationales du Réseau Doctoral de Microélectronique, JNRDM 2005, Paris, France, 10-12 Mai 2005
3.4 Invited
conference papers
[17] Levi T, Biomimetic Spiking Neural
Network for Bio-hybrid experiments, Italian Institute of Technology IIT,
Genova, Italy, May 2018
[16] Levi T, Biomimetic Spiking Neural
Network for Bio-hybrid experiments, IRCN, Yokohama, Japan, March 2018
[15] Levi T, "Biomimetic Spiking
Neural Network for Bio-hybrid experiments", Brain AI Workshop, Sendai,
Japan, July 2017
[14] Levi T, Spiking Neural Network for
bio-hybrid systems, Mathematical aspects of Topological phases of matter and
quantum computing, Sendai, Japan, July 2017
[13] Levi T, "Biomimetic Spiking
Neural Network for Bio-hybrid experiments", Neurofluidics
2016, Grenoble, France, November 2016
[12] Levi T, "NEUROPROTEST: Conception d’une plateforme de test pour les neuroprothèses", Workshop INSIS Electronique à l’interface avec le vivant, Paris, France, June 2016
[11] Levi T, "Biomimetic Neural
Network for the new generation of neuroprothesis",
ENS Paris, Paris, France, May 2016
[10] Levi T, "Digital Biomimetic
neural networks for hybrid experiments", UNIC, Paris France, May 2016
[9] Levi T, "Biomimetic neural
network for the new neuromorphic roadmap", Beyond CMOS, Munich, Germany,
October 2015
[8] Levi T, “Biomimetic artificial
neural network for hybrid experiments”, BioElectronics
for Medical Engineering, Brainetome, Chinese Academy
of Science, Pekin, China, September 23th, 2014
[7] Levi T, “Postdoctorat à l’etranger”, Journée de l’école doctorale, Bordeaux, France, 5 Mars, 2013
[6] Levi T, “Neuromorphic engineering”,
BioElectronics for Medical Engineering, BELEM IP,
Bordeaux, April 16th, 2013
[5] Levi T, “BioElectronic
and Microfluidic Neurons”, LIMMS Scientific Meeting, Tokyo, Japon,
November 26th, 2012
[4] Levi T, “System-level design
methods”, BioElectronics for Medical Engineering,
BELEM IP, Bordeaux, March 30th, 2012
[3] Levi T, “La microélectronique pour simuler les neurones”, Conférences CPGE Brizeux, Quimper, France, 25 février 2011
[2] Levi T and Kohno T, "Silicon
Neural Network Circuits for Smart-MEMs Systems", CMOS Emerging
Technologies 2009, Vancouver, Canada, September
23-25th 2009
[1] Levi T, "Neuromorphic
Engineering", Science Dialogue, JSPS Quarterly, Yokohama, Japan, August 18th
2009