[1] Wearable and Implantable Devices for Sensing and Treatment of Neurodegenerative Diseases
Keynote, MicroDSD, Korea, Oct 2016.
[2] Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases
Keynote, Bernstein Sparks Workshop, Delmenhorst, Germany, Oct 2016.
[3] Toward Multimodal Massively Parallel Multichannel Brain-Sensing Interfaces
Invited Talk, IEEE SMC, Budapest, Hungary, Oct 2016.
[4] Lab-on-Chip Based Biosensors for Diagnostic and Treatment of Neurodegenerative Diseases
Keynote, IEEE-MECBME, Beirut, Oct 2016.
[5] Toward an Implantable Intracortical Microsystem for the Recovery of Vision for the Blind
Keynote, The Eye and the Chip, Detroit, USA, Sept 2016.
[6] Connecting Wearable and Implantable Medical Devices to Internet for Remote Sensing and Treatment
Keynote, IEEE-HealthCom, Munich, Germany, Sept 2016.
[7] Wearable and Implantable Medical Devices for Diagnostic and Treatment of Neuro-degenerative Diseases
Invited Seminar, Shanghai Mental Health center, China, July 2016.
[8] Biosensors and Bioactuators for Diagnostic and Treatment of Neurodegenerative Diseases
Invited Seminar, SOME, SJTU, China, July 2016.
[9] Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases
InvitedSeminar, Changsha, China, July 2016.
[10] Lab-on-CMOS-Chip based Cell Manipulation and Monitoring for Diagnostic and Treatment of Neurodegenerative Diseases
Keynote, CASFEST, Montreal, May 2016.
[11] Implantable Neurotechnologies: from Circuits and Signals to Systems and Applications: BMI Case studies
Tutorial, IEEE-ISCAS, Montreal, May 2016.
[12] Toward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases
Keynote, Nano-Tera, EPFL, Lausanne, Switzerland, April 2016.
[13] Heterogeneous microdevices for the Recovery of Neural Functions
Keynote, ICABME, Beirut, Lebanon, September 2015.
[14] Brain-microsystem Interfaces for the Recovery of Neural Functions
Invited Talk, NAMIS, Montreal, July 2015.
[15] Brain-Computer-Brain Interfaces for Sensing and Subsequent Treatment
Keynote, CIIA, Saida, Algeria, May 2015.
[16] Smart Implantable Brain-Machine Interfaces Intended for Sensing and Subsequent Treatment
Tutorial, ISCAS, Lisbon, Portugal, May 2015.
[17] Engineering Neurosensing and Treatment Through Heterogeneous Devices
Seminar, HKUST, Hong Kong, March 2015.
[18] Brain-Machine-Brain Interfaces for Sensing and Subsequent Treatment
Tutorial, ICM, Doha, Qatar, December 2014.
[19] Toward Brain-Machine-Brain Interfaces for the Recovery of Vital Functions
Invited Talk, Université Paul-Sabatier, Toulouse, France, December 2014.
[20] Microsystems for neuroengineering sensing and treatment
Keynote, ICESTI’14, Annaba, Algeria, October 2014.
[21] Motivation and Outcomes in National and International Academic Collaboration
Keynote, CITEF’14, Beirut, Lebanon, October 2014.
[22] Estimation of Bladder Volume From Afferent Neural Activity
Invited Talk, ACRM’15 Toronto, Canada, October 2014.
[23] Bio-Microsystems for Neuroscience Treatments
Invited Talk, University of Alberta, Edmonton, Canada, September 2014.
[24] Sensing and Treatment using Smart Implantable Brain-Machine Interfaces
Summer School Tutorial, Tainan, Taiwan, September 2014.
[25] Circuits and Systems for Low-Power Budget Applications
Invited Seminar, Huawei, Ottawa, Canada, September 2014.
[26] Biosensors and prostheses for neurorecording and neurostimulation
Invited Seminar, University Federal of Santa Catarina, Florianopolis, Brazil, August 2014.
[27] Challenges of Wirelessly Managing Power and Data for Implantable Bioelectronics
Invited Seminar, Cyber-Physical SystemsSummer School, Grenoble, July 2014.
[28] Multimodal Wearable Brain-Computer Interface for Clinical Imaging Applications
Invited Talk, CMOS Emerging Technology Workshop, Grenoble, July 2014.
[29] Toward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases
Keynote, FTFC, Monte Carlo, Monaco, May 2014.
[30] Implantable Brain-Computer Interfaces for Parallel Neurosensing and Subsequent Treatment
Invited Seminar, CREATE SSI, Montreal, May 2014.
[31] Toward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases
Invited Seminar, KUSTAR, AbuDhabi, UAE, April 2014.
[32] Implantable Brain-Machine Interfaces for the Recovery of Neuromuscular Vital Functions
Keynote, MELECON’14, Beirut, Lebanon, April 2014.
[33] Challenges of Wirelessly Managing Power and Data for Implantable Bioelectronics
Keynote, ISBB’14, Taipei, Taiwan, April 2014.
[34] Brain-Machine Interfaces for Neurorecording and Subsequent Diseases Treatment
Keynote, LAAS’14, Beirut, Lebanon, March 2014.
[35] Microsystèmes pour redonner la vue aux aveugles
Invited Seminar, College André-Grasset, Montréal, Jan. 2014.
[36] Wireless Energy Recovery Intended for Implantable Medical Devices
Invited Talk, FETCH Workshop, Ottawa, Jan. 2014.
[37] Microsystems to Restore Sight to the Blind
Invited Talk, USEK, Kaslik, Lebanon, December 2013.
[38] Smart Medical Devices
Half-Day Tutorial, USEK, Kaslik, Lebanon, December 2013.
[39] Dispositifs médicaux intelligents pour la récupération des fonctions neurologiques vitales : Vision et épilepsie
Invited Seminar, Université de Lorraine, Nancy, France, December 2013.
[40] Recovery of Neuromuscular Vital Functions Through Implantable Brain-Machine Interfaces
Invited Talk, IEEE CASS Student Chapter, Paris, France, December 2013.
[41] Dispositifs médicaux intelligents pour la récupération des fonctions neurologiques vitales : Vision et épilepsie
Invited Seminar, ICube Lab, Strasbourg, France, December 2013.
[42] Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales: vision et épilepsie
Invited Seminar, ISEP, Paris, France, November 2013.
[43] Advanced Biomedical Circuits & Systems
Half-Day Tutorial, ISEP, Paris, France, November 2013.
[44] Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales: vision et épilepsie
Invited Talk, Estia Lab, Biarritz, France, November 2013.
[45] Advanced Biomedical Circuits & Systems
Full-Day Tutorial, Université de Bordeaux, IMS Lab, Bordeaux, France, November 2013.
[46] Fully Integrated RF Circuits for Efficiently Harvesting Electromagnetic Energy
Keynote, IEEE-AVIC, Montreal, Canada, October 2013.
[47] Advanced Biomedical Circuits & Systems
Full-Day Tutorial, Université de Lorraine, EASE Lab, Metz, France, October 2013.
[48] Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales: vision et épilepsie
Invited Seminar, IEEE-Qc Section, Quebec, Canada, October 2013.
[49] Harvesting Energy and Wireless Data Exchange with Implantable Medical Devices
Keynote, IEEE-ICABME, Tripoli, Lebanon, September 2013.
[50] Will Emerging Implantable Brain-Machine Interfaces Achieve Expected Impact ?
Invited Talk, Chengdu, China, July 2013.
[51] Microsystems to Restore Sight to the Blind
Invited Talk, Summer Camps, School of Microelectronics, SJTU, China, July 2013.
[52] Advanced Biomedical Circuits and Systems
One Month Tutorial, School of Microelectronics, SJTU, China, July 2013.
[53] Will Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Neural Diseases?
Invited Talk, Hefei, China, July 2013.
[54] Will Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Diseases?
Invited Seminar, ENSTA Bretagne, Brest, France, June 2013.
[55] Harvesting Energy and Wireless Control of Implantable Medical Devices
Keynote, ISWPT, Guiyang, China, May 2013.
[56] Harvesting Energy and Wireless Data Links for Implantable Bioelectronics
Invited Seminar, Chinese Academy of Sciences, Shanghai, China, May 2013.
[57] Sacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding
Invited Seminar at CRME, Shanghai, China, May 2013.
[58] Wirelessly Powered Intracortical Brain-Machine Interfaces for Vision and Epilepsy Treatments
Invited Seminar, Universidade do Sao Paula, Sao Paulo, Brazil, Apr. 2013.
[59] Energy Harvesting and Wireless Data Exchange for Implantable Medical Devices
Invited Seminar, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brésil, Apr. 2013.
[60] Harvesting Energy and Wireless Links for Biosystems
Invited Seminar, FUSC, Florianpolis, Brazil, Mar. 2013.
[61] Advanced Biomedical Circuits and Systems
One Month Tutorial, FUSC, Florianpolis, Brazil, Mar. 2013.
[62] Emerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases
Invited Seminar, FUSC, Florianpolis, Brazil, Mar. 2013.
[63] Microsystèmes pour redonner la vie aux aveugles
Invited Seminar, College André-Grasset, Montréal, Feb. 2013.
[64] Harvesting Energy and Wireless Links for Biosystems
Invited Seminar, KFUPM, Saoudi Arabia, Feb. 2013.
[65] Emerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases
Invited Seminar, KFUPM, Arabie Saoudite, Feb. 2013.
[66] Will Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?
Invited Seminar, UQAM, Montreal, Feb. 2013.
[67] Will Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?
IEEE-SSCS DLTutorial, Sfax Tunisia, Jan 2013.
[68] Wireless Brain-Machine Interfaces for Neurosensing and Subsequent Treatment
Keynote at ICM, Algeria, Dec 2012.
[69] Brain-Machine Interfaces for the Recovery of Neural Vital Functions
Keynote at ACTEA, Kaslik, Lebanon, Dec 2012.
[70] Wireless Brain-Machine Interfaces for neurosensing and stimulation: Multidimentional Challenges in Building Embedded systems
Keynote at ICESTI, Algeria, Nov 2012.
[71] Brain-Machine Biosensing and Treatment Interfaces and Techniques
IEEE-SSCS DL Tutorial, Pretoria, SouthAfrica, Oct. 2012.
[72] Brain-Computer Interfaces for Massively Parallel Neurorecording and Microstimulation
Keynote at UCWSNW, Cairo, Egypt, Oct. 2012.
[73] Brain-Machine-Brain Interfaces and Techniques
Invited Seminar, Nice, France, 24 Sept. 2012.
[74] Wireless Brain-Machine Biosensing and Treatment Interfaces and Techniques
IEEE-SSCS DL Tutorial, Bengalore, July 2012.
[75] Wireless Brain-Machine Biosensing and Treatment Interfaces and Techniques
IEEE-SSCS DL Tutorial, NewDelhi, July 2012.
[76] Will Emerging Biochips Achieve Breakthrough Treatment of Brain Diseases ?
Invited Talk, Neuro-Electronics Summer Camp, Shanghai, China, July 2012.
[77] Massively Parallel Intracortical Sensing and Subsequent Treatment
Invited Talk, FTFC, Paris, June 2012.
[78] Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation
Invited Talk, Hitachi, Tokyo, May 2012.
[79] Challenging Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment
Invited Talk NAMIS, Sendai, Japan, 27 May 2012.
[80] Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation
IEEE-SSCS DL, Kansai, Osaka, May 2012.
[81] Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation
IEEE-SSCS DL, Tokyo Institute of Technology, Tokyo, May 2012.
[82] Brain-Machine-Brain Interfaces: Challenging Implantable Microsystems for Sensing and Subsequent Treatment
Invited Talk, Seoul, Korea, May 2012.
[83] Challenging Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment
Invited Talk, Biomedical conference series, McGill University, Montreal, 4 Mar 2012.
[84] Multidimentional Challenges in Building Microsystems for Massively Parallel Wireless Neurorecording
Keynote at Semba-Biopro Workshop, Taiwan, 11 Feb 2012.
[85] Microsystèmes pour redonner la vie aux aveugles
Seminar at College André-Grasset, Montréal, 2 Feb 2012.
[86] Intracortical Interfaces for Multichannel Sensing and Subsequent Treatment
Keynote at The Annual BETRC-NCTU Workshop, Taiwan, 3 Dec 2011.
[87] Sacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding
Invited Talk at The 10thAnnual C. Tator-B. Turnbull Lectureship Series in Spinal Cord Injury, Toronto, 25 Nov 2011.
[88] Smart Brain Interfaces for Sensing and Subsequent Treatments
Keynote at IEEE-CID, Albany, NY, USA, 21 Oct 2011.
[89] Implantable Biochips for Wireless Brain-Machine-Brain Interfaces
IEEE-SSCS DL, Hong Kong, China, 3 Oct 2011.
[90] Smart Brain Interfaces for Diagnostic and Subsequent Treatments
Invited Seminar, Shanghai Jiao Tong University, Shanghai, 28 Sept 2011.
[91] Biochips for Wireless Brain-Machine-Brain Interfaces
IEEE-SSCS DL, Beijing, China, 27 Sept 2011.
[92] Smart Biochips for Wireless Brain-Machine-Brain Interfaces
IEEE-SSCS DL, Shanghai, China, 30 Sept 2011.
[93] Wearable and Implantable Wireless Brain-Machine Interfaces for Biosensing and Treatment of Neural Dysfunctions
Invited Seminar, Yonsei Univ. Annual Workshop, Seoul, Korea, 3 Oct 2011.
[94] Brain-Machine Interfaces for Wireless Biosensing and Treatment of Neural Dysfunctions
Keynotes, IEEE-ICOST, Montreal, June 2011.
[95] Brain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments
Invited Seminar, BWRC, Berkeley, CA, June 2011.
[96] Brain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments
IEEE-SSCS DL, National Semiconductor, Santa-Clara, CA, June 2011.
[97] Harvesting Energy and Bidirectional Wireless Data Transmission for Implantable BMI Applications
Invited talk, IEEE-IMS, RFIC WS, Baltimore, June 2011.
[98] Implantable Brain-Machine Interfaces for Biosensing and Subsequent Treatment of Central Neural System Dysfunctions
Invited talk, IEEE-FTFC, Marrakech, May 2011.
[99] Brain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions
IEEE-SSCS DL, Porto Alegre, Brazil, May 2011.
[100] Microsystèmes dédiés à des interfaces cerveaux-machines
Invited talk, ENSA Tunis, Tunisia, May 2011.
[101] Microsystèmes dédiés à des interfaces cerveaux-machines
Invited talk, ENISo Sousse, Tunisia, May 2011.
[102] Brain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions
IEEE-SSCS DL, Columbia Univ., NewYork, May 2011.
[103] Massively Parallel Brain-Computer Interfaces for Biosensing and Subsequent Treatment of Neural Dysfunctions
Tutorial, IEEE-ISMICT, Switzerland, March 2011.
[104] Interface cerveau-machine pour la détection et traitement de foyers épileptiques
Invited Talk, FETCH, Quebec, Jan. 2011.
[105] Implantable Microsystems Intended for Onset Epileptic Seizure Detection and Treatment
Keynotes, IEEE-CIBEC, Cairo, Egypt, Dec. 2010.
[106] Emerging Brain-Machine Interfaces for Diagnostic and Recovery of Neural Vital Functions
Invited Talk, IEEE-ISNE, Taiwan, Nov. 2010.
[107] Research Areas in IEEE-CAS Society Needed for, and Can be Applied to, BMIs
Invited Talk at IEEE-SMC BMI Workshop, Istanbul, Turkey, Oct. 2010.
[108] Brain-Machine Interfaces for Accurate Monitoring and Subsequent Treatment of Central Neural System Functions
Keynotes at IEEE-EMBC Workshop, Waterloo, Ontario, Oct. 2010.
[109] Harvesting Energy and Wireless Data Transmission for Sensors and Actuators
Invited Talk, Workshop NSFC-FQRNT, Green ICT: Sustainable Wireless Communications, Beijing, China, Sept. 2010.
[110] Emerging Wireless Intracortical Massively Parallel Biosensing
Tutorial at The 6th RaMSiS Summer School Next Generation Mobile Communications: Chipset Design and Applications, Notre-Dame University, Lebanon, July 2010.
[111] Wireless Brain‐Machine Interface for the Recovery of Neural Vital Functions
Tutorial at The 6th RaMSiS Summer School Next Generation Mobile Communications: Chipset Design and Applications, Notre-Dame University, Lebanon, July 2010
[112] Low-power implantable devices for onset seizures detection and subsequent treatment
Keynotes at The 16th IEEE Int’l Mixed-Signals, Sensors, and Systems Test Workshop (IMS3TW), Montpellier, France, June 2010.
[113] New sacral neurostimulation strategy for improving bladder voiding in paraplegic dogs
Keynotes at The 4th annual meeting of the Canadian Neuromodulation Society (CNS), Quebec, Quebec, June 2010
[114] Intracortical Multichannel Recording for Efficient Prosthetic Implementation
Invited talk at Joint IEEE CASS / SSCS/EDS Chapter, Ottawa, May 2010.
[115] Circuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission
Keynotes at The 16th IEEE Int’l Symposium on Asynchronous Circuits and Systems (ASYNC), Grenoble, France, May 2010.
[116] Circuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission
Invited talk at Université de Montpellier II, Montpellier, France, March 2010.
[117] Microsystèmes pour redonner la vue aux aveugles : Conférences en classe
Invited talk at Baie-Comeau College, Video-conference, March 2010.
[118] Les activités de recherche sur les microsystèmes au Québec : projets et infrastructures
Invited talk at Université de Sherbrooke, Sherbrooke, February 2010.
[119] Efficient Wireless Power Recovery and Bidirectional Data Transmission in Smart Medical Devices
Invited talk at CMC Microsystems Wearable Wireless Devices for Bio-Medical Applications Workshop, Montreal, February 2010.
[120] Multi-modes high performance digital pixel sensor for visual intracortical microstimulation
Invited talk, CMC Microsystems Bioimaging for Bio-Sensing Applications Workshop, Montreal, November 2009.
[121] Biomedical Circuits and Microsystems for Wireless Intracortical Biosensing and Treatment
Tutorial, Int’l Conf. on Electronics, Circuits and Systems (ICECS), Tunisia, Dec. 2009.
[122] Microsystèmes embarqués dédiés à la récupération de fonctions neuromusculaires
Invited talk, Ecole Marocaine des sciences de l’ingénieur, Casablanca, Morocco, Dec. 2009.
[123] Microsystèmes pour redonner la vue aux aveugles : Conférences en classe
Invited talk at Edouard-Montpetit College, Longueil, October 2009.
[124] Intracortical Microsystems for Wireless Biosensing and Visual Microstimulation
Invited talk, Computer Science & Eng. Colloquium, Washington University, St-Louis, USA, Sept. 2009.
[125] Intracortical Microstimulation to Create Vision
Invited talk at the IEEE-Custom Integrated Circuits Conference (CICC), San Jose, USA, Sept. 2009.
[126] Emerging CMOS-Based biosensing technologies
Tutorial, Symposium on Integrated Circuits and Systems Design (SBCCI), Brazil, Sept. 2009.
[127] Capacitive Sensing Technique Dedicated for Biodiagnostic Microsystems
Tutorial, 19th European Conference on Circuit Theory and Design (ECCTD), Turkey, Sept. 2009.
[128] Brain-machine interface: 3D-IC for intracortical recording and wireless transmission
Invited talk at the System Design for 3D Silicon Integration Workshop (D43D), Grenoble, June 2009.
[129] Intracortical microstimulation for creating vision : a multidisciplinary approach
Invited talk at the IEEE Mixed-Signals, Sensors and Systems Test Workshop (IMS3TW), Scottsdale, June 2009.
[130] Microsystèmes médicaux implantables : défis de conception et d’intégration
Invited Talk at ACFAS, Ottawa, May 2009.
[131] Intracortical Wireless Microsystems for Biosensing and Neurostimulation
Tutorial at The GLSVLSI, Boston, USA, May 2009.
[132] Implantable Intracortical Microsystems for Wireless Biosensing and Treatment
Invited talk at Michigan State University, Detroit, USA, April 2009.
[133] Multichannel sensing for better primary visual cortex microstimulation
Invited talk at ACM Siggraph, Montreal, February 2009.
[134] Multichannel sensing and stimulation in the cortex: Design and packaging challenges
Invited talk at University of Cyprus, Cyprus, January 2009.
[135] Learning from the primary visual cortex to recover vision for the blind by microstimulation
Keynotes at IEEE-Norchip, Tullin, Estonia, November 2008.
[136] Lab-on-Chip Based Sensors for bioparticles detection and characterisation
Tutorial at IEEE-Norchip, Tullin, Estonia, November 2008.
[137] Partenariats pour le développement et la commercialisation d’un implant urinaire
Entretiens Jacques-Cartier, Montreal, October 2008.
[138] Medical Microsystems for the Recovery of Vital Neural Functions
Invited Talk, National Cheng Kung University, Tainan, September 2008.
[139] Medical Microsystems for the Recovery of Vital Neural Functions
Invited Talk, National Taiwan University, Taipei, September 2008.
[140] Microsystems Based on Microelectronics Technologies: Overview and Successful Stories of ReSMiQ Research Centre
Invited Talk, MEMS Emerging technology Forum, Hsinchu, September 2008.
[141] Lab-on-Chip Based Diagnostic Tools: Microfluidic Structures on Top of CMOS Devices
Tutorial at IEEE-ICECS, Malta, September 2008.
[142] Wireless Intracortical Microsystems for Sensing and Subsequent Treatment
Invited Talk at CMOS Emerging Technology, Whistler, Canada, August 2008.
[143] Wireless Multi-channel Stimulation and sensing from the cortex: Design and test challenges
Invited Talk at VERIMAG, Grenoble, France, July 2008.
[144] Architectures, approches et infrastructures dédiées à la construction de microdispositifs hétérogènes embarqués
Invited Talk at SSNE’08, Alger, May 2008.
[145] Massively parallel wireless sensing from the cortex: Design and test challenges
Invited Talk at IEEE-VTS, San Diego, May 2008.
[146] Microsystems for advanced diagnostic and treatment tools
Invited Talk at Shanghai Jiao Tong University, China, April 2008.
[147] Circuits and systems for medical wearable devices
Invited Talk at Shanghai Jiao Tong University, China, April 2008.
[148] Biomedical Circuits and Systems Dedicated for Sensing and Neurostimulation
Keynotes at ELECO, Bursa, Turkey, Dec. 2007.
[149] Circuits and Systems Dedicated for biosensors and implantable stimulators
Tutorial at Unversity of Istanboul, Istanboul, Turkey, Dec. 2007.
[150] A 0.18 μm CMOS Capacitive Detection Lab-on-Chip
Invited Talk at IEEE-CICC, San Jose, September 2007.
[151] Diagnostic tools based on mixed-technology microdevices
Tutorial ECCDT2007, Sevilla, Spain, August 2007.
[152] CMOS Based Laboratory-on-Chip: A Multidisciplinary Approach
Invited Talk at CMOS Emerging Technology, Whistler, Canada, August 2007.
[153] Neurostimulation and Neuromodulation to Enhance the Bladder Functions
Invited Talk at IHMNC/CAN 2007, Toronto, May 2007.
[154] Implantable diagnostic tools based on mixed-technology microdevices
Tutorial FTFC 2007, Paris, May 2007.
[155] Engineering Biosensing Microsystems for Advanced Diagnostic Tools
Keynotes at ICBME 2007, Tehran, Feb. 2007.
[156] Microsytèmes dédiés aux applications médicales intracorticales: réalisation et expérimentation
Invited Talk at Fetch, Lyon, France, Jan. 2007.
[157] La recherche en ingénierie par l’exemple : Microélectronique dédiée aux microsystèmes implantables: défis et limites
Invited Seminar at Journée Franco-Québecoise, Marseille, France, December 2006.
[158] Implantable Smart Medical Microsystems: Limits and Challenges
Keynotes at 13th IEEE ICECS, Nice, France, December 2006.
[159] Engineering Biosensing Microsystems for Advanced Diagnostic Tool
Invited Seminar atShanghai JTU, China, October 2006.
[160] Micro/Nano Opportunities in Implantable Medical Devices
Keynotes at Micro-NanoUtah, Salt Lake City, USA, October 2006.
[161] Signal Processing Based Implantable Microsystems for Intracortical Therapeutic Purposes
Keynotes at IEEE SIPS, Calgary, October 2006.
[162] Microsystèmes pour redonner la vue aux aveugles : Conférences en classe
CEGEP du Vieux-Montreal, Montreal, September 2006.
[163] Biomedical Circuits and Systems Dedicated to Remote Sensing and Neurostimulation
DL North Jersey CAS Chapter, USA, May 2006.
[164] Wireless Communication Circuits for Biomedical Devices
SYTACom Workshop, ACFAS, Montreal, May 2006.
[165] Mise en oeuvre de dispositifs de surveillance et stimulation intracorticales
GRSTB Workshop, Montreal, May 2006.
[166] The Pursuit of Sight Restoration for the Blind by Intracortical Microstimulation
Keynotes Northeast Bioengineering Conference, Easton, PA, April 2006.
[167] Microelectronics to build microsystems dedicated to several applications
FQRNT Workshop, Montreal, January 2006.
[168] De la puce à l’oreille jusqu’à l’oeil électronique
Profil deVinci, Polytechnique, Montreal, January 2006.
[169] Biomedical Circuits and Systems for Implantable Devices
Lebanese American University, Beirut, Dec. 2005.
[170] Wireless Biomedical Circuits and Systems Techniques dedicated to Sensoring and Neurostimulation
LIRMM Centre, Montpellier, France, Nov. 2005.
[171] BioCAS to Build Wirelessly Powered and Controlled Medical Devices
Tutorial, ECCTD, Ireland, September 2005.
[172] Wireless Powered and Bidirectional Data Exchanged in Smart Medical Microsystems
Invited paper in IEEE-CICC, San Jose, September 2005.
[173] BioCAS to Build Wirelessly Powered and Controlled Medical Devices
Tutorial at IEEE-ECCTD, Ireland, September 2005.
[174] Les implants microélectroniques : capteurs et microstimulateurs
PRECARN IS Conference, Quebec, Canada, June 2005.
[175] Advanced Circuit Techniques to Implement Biomedical Implantable Microsystems
Tutorial at IEEE-ISCAS, Kobe, Japan, May 2005.
[176] Advanced Techniques To Build Smart Implantable Medical Devices
DLVancouver IEEE-CAS Chapter, Vancouver, Canada, May 2005.
[177] Advanced Techniques To Build Smart Implantable Medical Devices
DLCalgary IEEE-CAS Chapter, Calgary, Canada, May 2005.
[178] Implantable Medical Devices To Recuperate Vital Neural Functions
Lebanese International University, Lebanon, April 2005.
[179] Microsystems dedicated to build Smart Medical Devices: Present and future directions
IEEE Polytechnique Student Chapter, Montreal, Canada, April 2005.
[180] Wirelessly Powered and Fully Controlled Smart Medical Microsystems
DL Halifax IEEE-CAS Chapter, Halifax, Canada, March 2005.
[181] Advanced Techniques To Build Smart Implantable Medical Devices
DL Caribean IEEE-CAS Chapter, Puerto-Rico, March 2005.
[182] Advanced Techniques To Build Smart Implantable Medical Devices
DL San Juan IEEE-CAS Chapter, Puerto-Rico, March 2005.
[183] Implantable Microdevices for Multichannel Monitoring and Electrical Stimulation
DL SingaporeIEEE-CAS Chapter, Singapore, December 2004.
[184] Implantable Microdevices for Multichannel Monitoring and Electrical Stimulation
DL France IEEE-CAS Chapter, Paris, November 2004.
[185] Microsystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging
IEEE-ICSICT, Beijing, 2004.
[186] Wirelessly controlled implantable devices for multichannel monitoring and stimulation
IEEE-ICCSC, Moscow, July 2004.
[187] Wireless smart implants dedicated to multichannel monitoring and microstimulation
IEEE-ICPS, Beirut, June 2004.
[188] Building Biomedical Microsystems: Design and Experimental Validation
Dept of ECE, McMaster University, 2004.
[189] Microsystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging
IEEE-ICSICT,Beijing, China, October 18-21 2004, vol. 2, pp. 1408-1411.
[190] Wireless smart implants dedicated to multichannel monitoring and microstimulation
The IEEE/ACS International conference on Pervasive Services,Beirut, Lebanon, July 19-23 2004, pp. 21-26.
[191] Dual Neurostimulation to Recuperate the Urinary Bladder Functions
The Institute of Neuro-sciencecs, Mental Health and Addiction annual meeting, Toronto, November 2003.
[192] Biomedical circuits and systems to recuperate neuromuscular functions
IEEE-CAS Chapter, Waterloo, September 2003.
[193] Analog-to-Digital Converters Dedicated to Wide-Bandwidth Wireless Transceivers
Wireless Industry Congress, Ottawa, September 2003.
[194] Implantable Smart Medical Devices to Recuperate Neuromuscular Functions
McGill University, April 2003.
[195] Visual Electronic Implants: Principal & Alternative
Université de Montréal, March 2003.
[196] Neurostimulation to reduce the Hyperreflexia of the Detrusor and Avoid its Dyssynergia with the Sphincter
Society for Pelvic Neuromodulation, Phoenix, January 2003.
[197] Techniques et instrumentation de la neurostimulation
Congrès de biologie médicale, Trois-Rivières, Qc, March 2002.
[198] La neurotechnologie pour récupérer des fonctions humaines
OIQ Lanaudière, Feb. 2002.
[199] The present and future of the artificial eye
SIGGRAPH, ACM, Montreal, October 2001.
[200] Microelectronics to Build Smart Medical Devices
13th IEEE-ICM, Maroc, 2001.
[201] Biomedical Microelectronics to build smart medical devices
Concordia University, 2001.
[202] Testability of electronic circuits dedicated to implants
Panel, VTS, Montreal, 2000.
[203] Analog circuit tecniques for RF applications
Mitel, Kanata, October 1999.
[204] Systèmes dédiés à la récupération de fonctions neuromusculaires
IEEE St-Maurice, 1998.
[205] Microelectronics in biomedical implantable devices
Lebanese American University, 1997.
[206] Récupération de fonctions sensorielles par des stimulateurs sensoriels
GRPR, 26 May 1995.
[207] Architectures et méthodes de conception de PLD
Colloque Microélectron., Montreal, 1994.
[208] Les circuits logiques programmables et leurs outils de développement
IEEE-Poly, 1993.
[209] Implants sensoriels dédiés au contrôle de dysfonctions urinaires
GRBB, Montreal, 1993.
[210] Mixed Digital/Analog ASIC for Neural Stimulation Applications
GRIAO, Montreal, 1992.
[211] Applications de la microélectronique aux implants sensoriels
Poly-Grames, December 1992.
[212] A Multichannel Implantation Bladder Controller
PFIZER,École Polytechnique, June 1992.
[213] Stimulateurs neuromusculaires implantables; couplage inductif et sources de courant
École Polytechnique de Montréal, Montreal, June 1991.
[214] Conception, Réalisation et tests in vivo des stimulateurs neuromusculaires implantables
École de Technologie Supérieure, Montreal, June 1991.
[215] Design, Realization and In vivo Tests of a Computerized Implantable 8Channel Bladder Stimulator
Biomedical Engineering, Université McGill, Montreal, April 1991.
[216] Réalisation et tests in vivo des stimulateurs neuro-musculaires implantables
École Polytechnique, Montreal, March 1991.
[217] Tests in vivo de la prothèse urinaire du GRAMS
Département de génie électrique, Université de Sherbrooke, October 1990.
[218] Un aperçu sur le stimulateur cochléaire: point de vue expérimental
COSEM Neurostim Ltée, Montreal, January 1989
[219] Microelectronics and Biomedical Instrumentation
IEEE-Int. Conference on Micro-electronics, 1993, p. 325-328.
[220] Nouvelle génération des stimulateurs neuromusculaires implantables
Congrès de l’ACFAS, Colloque, Sherbrooke, May 1991.
