{"id":297,"date":"2017-04-19T19:14:27","date_gmt":"2017-04-19T19:14:27","guid":{"rendered":"http:\/\/www.mohamadsawan.org\/?page_id=297"},"modified":"2024-03-27T17:30:34","modified_gmt":"2024-03-27T17:30:34","slug":"annexe-c","status":"publish","type":"page","link":"https:\/\/mohamadsawan.org\/fr\/annexe-c\/","title":{"rendered":"Annexe C"},"content":{"rendered":"\t\t<div data-elementor-type=\"wp-page\" data-elementor-id=\"297\" class=\"elementor elementor-297\">\n\t\t\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-60211255 elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"60211255\" data-element_type=\"section\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-58f4364e\" data-id=\"58f4364e\" data-element_type=\"column\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-51c3ec58 elementor-widget__width-auto elementor-widget elementor-widget-image\" data-id=\"51c3ec58\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<img decoding=\"async\" width=\"150\" height=\"145\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/MSawan-1-1.jpg\" class=\"attachment-thumbnail size-thumbnail wp-image-1001\" alt=\"\" \/>\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-a561ad7 elementor-widget elementor-widget-heading\" data-id=\"a561ad7\" data-element_type=\"widget\" data-widget_type=\"heading.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t<h1 class=\"elementor-heading-title elementor-size-default\">Mohamad Sawan<\/h1>\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-15803cd9 elementor-widget elementor-widget-heading\" data-id=\"15803cd9\" data-element_type=\"widget\" data-widget_type=\"heading.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t<h3 class=\"elementor-heading-title elementor-size-default\">M.Sc., Ph.D., FIEEE, FRSC, FCAE, FEIC, O.Q., Chair Professor, Westlake University, and Emeritus Professor, Polytechnique Montr\u00e9al.<\/h3>\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-3746f6ac elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"3746f6ac\" data-element_type=\"section\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-17c0fc38\" data-id=\"17c0fc38\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-3e5b0c25 elementor-widget elementor-widget-text-editor\" data-id=\"3e5b0c25\" data-element_type=\"widget\" data-widget_type=\"text-editor.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t<h3>A. Refereed Journal Publications<\/h3>\n<br \/><br \/>[332] WANG C., FANG C., ZOU Y., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cSpikeSEE: An Energy-Efficient Dynamic Scenes Processing Framework for Retinal Prostheses &#8220;, To Appear in <strong><em><b><i>Neural Networks Journal<\/i><\/b><\/em><\/strong>, <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[331] ZHAO S., YANG J., WANG J., LIU T., ZHANG S., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cA 0.99-to-4.38 uJ\/class Event-Driven Hybrid Neural Network Processor for Full-Spectrum Neural Signal Analyses\u201d, To Appear in <strong><em><b><i>IEEE Transactions on Biomedical Circuits and Systems<\/i><\/b><\/em><\/strong>, <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[330] LIN Y., CHEN C., MA Z., WEI Y., ZHANG T., <strong><b>SAWAN M.<\/b><\/strong>, WANG G., ZHAO J., \u201cEmulation of Brain Metabolic Activities Based on A Dynamically Controllable Optical Phantom&#8221;, To Appear in <strong><em><b><i>AAAI: Cyborg and Bionic System<\/i><\/b><\/em><\/strong><strong><b>s <\/b><\/strong><strong><em><b><i>Journal<\/i><\/b><\/em><\/strong>, <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[329] Wang T., CHEN YH., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cExploring the Role of Visual Guidance in Motor Imagery-based Brain-computer Interface: An EEG Microstate-specific Functional Connectivity Study&#8221;, <strong><em><b><i>MDPI Bioengineering Journal<\/i><\/b><\/em><\/strong>, Vol 10, No. 3, <strong><b>2023<\/b><\/strong>, 281.\n<br \/><br \/>[328] CHEN YH., YANG J., BEIER K., WU H., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cChallenges and Future Trends in Wearable Closed-loop Neuromodulation to Efficiently Treat Methamphetamine Addiction&#8221;, <strong><em><b><i>MDPI Frontiers in Psychiatry-Addictive Disorders Journal<\/i><\/b><\/em><\/strong>, Vol 14, <strong><b>2023<\/b><\/strong>.\n<br \/><br \/>[327] ESMAEILZADEH M., AUDET Y., ALI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Wide-range Low-power Thyristor-based Delay Element with Improved Temperature Sensitivity&#8221; <strong><em><b><i>the IEEE Transactions on Circuits and Systems II: Express Briefs<\/i><\/b><\/em><\/strong>, <strong><b>2023<\/b><\/strong>.\u00a0DOI:10.1109\/TCSII.2023.3245562\n<br \/><br \/>[326] FREDJ Z., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cAdvanced Nanomaterials-based Electrochemical Biosensors for Catecholamines Detection: Challenges and Trends\u201d, Vol\u00a013, No. 2, <strong><em><b><i>MDPI Biosensors Journal, <\/i><\/b><\/em><\/strong><strong><b>2023<\/b><\/strong>, 211\n<br \/><br \/>[325] WU D., ZHAO S., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cSoftware-hardware Co-design for Energy-efficient Continuous Health Monitoring via Task-aware Compression\u201d,\u00a0<strong><em><b><i>IEEE Transactions on Biomedical Circuits and Systems<\/i><\/b><\/em><\/strong>, <strong><b>2023<\/b><\/strong>.\u00a0DOI:10.1109\/TBCAS\/2023.3238719, pp. 1-12.\n<br \/><br \/>[324] ZHENG Y., SONG X., FREDJ Z., BIAN S., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cChallenges and Perspectives of Multi-virus Biosensing Techniques: A Review\u201d, <strong><em><b><i>Analytica Chimica Acta Journal, <\/i><\/b><\/em><\/strong>Vol 1244, <strong><b>2022<\/b><\/strong>, 340860\n<br \/><br \/>[323] WANG C., FANG C., ZOU Y., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cArtificial Intelligence Techniques for Retinal Prostheses: A Comprehensive Review and Future Direction\u201d,\u00a0<strong><em><b><i>J. Neural Eng.<\/i><\/b><\/em><\/strong>, Vol. 20, <strong><b>2023<\/b><\/strong>, 011003\n<br \/><br \/>[322] TIAN F., YANG J., ZHAO S., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cNeuroCARE: A Generic Neuromorphic Edge Computing Framework for Healthcare Applications\u201d, <strong><em><b><i>Frontiers Neurosciences Journal<\/i><\/b><\/em><\/strong>, Vol. 17, <strong><b>2023<\/b><\/strong>,1093865\n<br \/><br \/>[321] GAGLIANO L., DING T.Y., TOFFA D. H., BEAUREGARD, L., ROBERT M., LESAGE F., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0NGUYEN D.K., BOUASSI, E., \u201cDecrease in wearable-based nocturnal sleep efficiency precedes epileptic seizures\u201d, \u00a0<strong><em><b><i>Frontiers in Neurology<\/i><\/b><\/em><\/strong>, Vol. 13, <strong><b>2023<\/b><\/strong>, 1089094\n<br \/><br \/>[320] ELSAYEGH B., LEDUC-PRIMEAU F., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0DUMOULIN C., \u201cThe State of Pelvic Floor Muscle Dynamometry: A Scoping Review\u201d, <strong><em><b><i>Neurology and<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Urodynamics<\/i><\/b><\/em><\/strong>, Vol 42, <strong><b>2023<\/b><\/strong>, pp. 478-499.\n\n<br \/><br \/>[319] WU D., SHI Y., WANG Z., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cCSP-Net: Joint Compression and Classification Network for Epilepsy Seizure Prediction\u201d, <strong><em><b><i>IEEE Transactions on Neural Systems and Rehabilitation Engineering, <\/i><\/b><\/em><\/strong>Vol 31, pp. 841-850, <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[318] RONG G., ZHENG Y., LI, X., GUO M., SU Y., BIAN S., DANG B., CHEN Y., ZHANG Y., SHEN L., JIN H., YAN R., ZHU P., WEN L., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cA High-throughput Fully Automatic biosensing platform for efficient COVID-19 detection\u201d, <strong><em><b><i>Elsevier Biosensors and Bioelectronics Journal<\/i><\/b><\/em><\/strong>, Vol. 220, <strong><b>2023<\/b><\/strong>, 114861.\n\n<br \/><br \/>[317] KARIMI M., ALI M., HASSAN A., BOSTANI R., VAISBAND B., <strong><b>SAWAN M<\/b><\/strong>., GOSSELIN B., \u201cA 7.6-ns Delay Subthreshold Level-Shifter Leveraging a Composite Transistor and a Voltage-Controlled Current Source\u201d, <strong><em><b><i>IEEE-ACCESS, <\/i><\/b><\/em><\/strong>Vol. 10, <strong><b>2022<\/b><\/strong>, pp. 132432-132447<strong><b>.<\/b><\/strong>\n\n<br \/><br \/>[316] ESMAEILZADEH M., AUDET Y., ALI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Low-offset VCO-based Time-domain Comparator Using a Phase Frequency Detector with Reduced Dead and Blind Zones\u201d,\u00a0<strong><em><b><i>IEEE<\/i><\/b><\/em><\/strong><strong><em><b><i>-TCAS-I,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>2022<\/b><\/strong>, pp. 1-13.\n\n<br \/><br \/>[315] ZHENG W., CHEN Y., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cLongitudinal Data to Enhance Dynamic Stroke Risk Prediction\u201d, <strong><em><b><i>MDPI Healthcare Journal<\/i><\/b><\/em><\/strong><strong><b>,<\/b><\/strong>\u00a0Vol. 10, No. 11, <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[314] RONG G., ZHENG Y., XI, Y., BAO K., XIA F., REN H., BIAN S., LI L., ZHU B., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cA Closed-loop Approach to Fight Coronavirus: Early Detection and Subsequent Treatment\u201d, <strong><em><b><i>MDPI Biosensors Journal<\/i><\/b><\/em><\/strong><strong><b>,<\/b><\/strong>\u00a0Vol. 12, No. 10, <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[313] LI M., YE Z.-W., TANG K., GUO L., BI W., ZHANG Y., TANG Y.-D., RONG G., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0YIN X., SUN R., YUAN S., DANG B., \u201cEnhanced trimeric ACE2 exhibits potent prophylactic and therapeutic efficacy against the SARS-CoV-2 Delta and Omicron variants in vivo\u201d, <strong><em><b><i>Cell Research<\/i><\/b><\/em><\/strong>, Vol. 32, No. 6, <strong><b>2022<\/b><\/strong>, pp. 589-592.\n\n<br \/><br \/>[312] ELSAYEGH B., ALI M., ASSAF H., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUMOULIN C., \u201cPortable Dynamometer-Based Measurement of Pelvic Floor Muscle Force\u201d, <strong><em><b><i>IEEE Journal of Translational Engineering in Health &amp; Medicine<\/i><\/b><\/em><\/strong>, Vol. 11, <strong><b>2022<\/b><\/strong>, pp. 44-53. DOI: 10.1109\/JTEHM.2022.3223258.\n\n<br \/><br \/>[311] LI H., TROCAN M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0GALAYKO D., \u201cSerial Decoders-Based Autoencoders for Image Reconstruction\u201d, <strong><em><b><i>Applied Sciences Journal<\/i><\/b><\/em><\/strong>, Vol.12, No. 16, <strong><b>2022<\/b><\/strong><strong><b>,<\/b><\/strong><strong><b>\u00a0<\/b><\/strong>8256.\n\n<br \/><br \/>[310] KARIMI M., ALI M., HASSAN A., AGHAJANI A., <strong><b>SAWAN M<\/b><\/strong>., GOSSELIN B., \u201cA 9.2-ns to 1-us Digitally Controlled Multi-tuned Deadtime Optimization for Efficient GaN HEMT Power Converters\u201d, <strong><em><b><i>IEEE-TCAS-I,<\/i><\/b><\/em><\/strong>\u00a0Vol. 69, No. 11, <strong><b>2022<\/b><\/strong>, pp. 4381-4394.\n\n<br \/><br \/>[309] WANG J., CHEN Y., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cIntelligent Classification Technique of Hand Motor Imagery Using EEG Beta Rebound Follow-up Pattern\u201d, <strong><em><b><i>MDPI, Biosensors, <\/i><\/b><\/em><\/strong>Vol. 12, No. 6, <strong><b>2022<\/b><\/strong>, 384\n\n<br \/><br \/>[308] AZIZIPOUR N., AVAZPOUR R., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0ROSENZWEIG D.H., AJJI A., \u201cUniformity of spheroids-on-a-chip by surface treatment of PDMS microfluidic platforms\u201d,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Sensors &amp; Diagnostics Journal, <\/i><\/b><\/em><\/strong>Vol. 1, <strong><em><b><i>2022<\/i><\/b><\/em><\/strong>, pp.750-764<strong><em><b><i>.<\/i><\/b><\/em><\/strong>\n\n<br \/><br \/>[307] SUN S., YANG J., CHEN Y., MIAO J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cEEG Signals based Internet Addiction Diagnosis Using Convolutional Neural Networks\u201d, <strong><em><b><i>MDPI, Applied Sciences<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em>Vol. 12, No. 13, <strong><b>2022<\/b><\/strong>, 6297.\n\n<br \/><br \/>[306] WU D., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cBridging the Gap Between Patient-Specific and Patient-Independent Seizure Prediction Via Knowledge Distillation\u201d, <strong><em><b><i>J. Neural Eng.<\/i><\/b><\/em><\/strong>\u00a0Vol. 19, No. 3<em><i>, <\/i><\/em><strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[305] TAO Y., BIAN S., WANG P., ZHANG H., BI W., ZHU P., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cRapid Optical Biosensing of SARS-CoV-2 Spike Proteins in Artificial Samples\u201d, <strong><em><b><i>MDPI Sensors<\/i><\/b><\/em><\/strong>, Vol. 22, No. 10, <strong><b>2022<\/b><\/strong>, 3768.\n\n<br \/><br \/>[304] XU Y., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cMultichannel Synthetic Preictal EEG Signals to Enhance the Prediction of Epileptic Seizures\u201d,\u00a0<strong><em><b><i>IEEE <\/i><\/b><\/em><\/strong><strong><em><b><i>Transactions <\/i><\/b><\/em><\/strong><strong><em><b><i>on Biomedical Engineering<\/i><\/b><\/em><\/strong>, Online, <strong><b>2022<\/b><\/strong>, 3171982.\n\n<br \/><br \/>[303] WANG C., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cNeuroSEE: A Neuromorphic Energy Efficient Processing Framework for Visual Prostheses\u201d,\u00a0<strong><em><b><i>IEEE Journal of Biomedical and Health Informatics<\/i><\/b><\/em><\/strong>,<em><i>\u00a0and Featured cover page,<\/i><\/em>\u00a0Vol. 26, No. 8, <strong><b>2022<\/b><\/strong>, pp. 4132-4141.\n\n<br \/><br \/>[302] AZIZIPOUR N., AVAZPOUR R., <strong><b>SAWAN M.<\/b><\/strong><strong><b>,<\/b><\/strong>\u00a0AJJI A., ROSENZWEIG D.H., \u201cSurface optimization and design adaptation toward spheroid formation on-chip\u201d, <strong><em><b><i>MDPI Sensors<\/i><\/b><\/em><\/strong>, Vol. 22, No. 9, <strong><b>2022<\/b><\/strong>,3191.\n\n<br \/><br \/>[301] CHEN J., WU H., TARKHAN M., HASHEMI-NOSHAHR F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cRecent Trends and Future Prospects of Neural Recording Circuits and Systems: A Tutorial Brief\u201d,\u00a0<strong><em><b><i>IEEE <\/i><\/b><\/em><\/strong><strong><em><b><i>Transactions on Circuits and Systems<\/i><\/b><\/em><\/strong>: <strong><em><b><i>Express Briefs<\/i><\/b><\/em><\/strong>, Vol. 69, No. 6, <strong><b>2022<\/b><\/strong>, pp. 2654-2660.\n\n<br \/><br \/>[300] ZHAO S. FANG C., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cEmerging Energy-Efficient Biosignal-Dedicate Circuit Techniques: A Tutorial Brief\u201d, <strong><em><b><i>IEEE <\/i><\/b><\/em><\/strong><strong><em><b><i>Transactions on Circuits and Systems<\/i><\/b><\/em><\/strong>: <strong><em><b><i>Express Briefs<\/i><\/b><\/em><\/strong>, Vol. 69, No. 6, <strong><b>2022<\/b><\/strong>, pp. 2592-2597.\n\n<br \/><br \/>[299] TARKHAN M., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cA Novel Current Density based Design Approach of Low-Noise Amplifiers\u201d,\u00a0<strong><em><b><i>IEEE Access<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Journal<\/i><\/b><\/em><\/strong>, Vol. 10, <strong><b>2022<\/b><\/strong>, pp. 42309-42320.\n\n<br \/><br \/>[298] AZIZIPOUR N., AVAZPOUR R., WEBER M., <strong><b>SAWAN M.<\/b><\/strong>, AJJI A., ROSENZWEIG D., \u201cUniform tumor spheroids on surface optimized microfluidic biochip for reproducible drug screening and personalized medicine\u201d, <strong><em><b><i>MDPI, <\/i><\/b><\/em><\/strong><strong><em><b><i>Micromachines<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0Journal<\/i><\/b><\/em><\/strong>, Vol.13, No. 4, <strong><b>2022<\/b><\/strong>, 587.\n\n<br \/><br \/>[297] DANG B., LI M., GUO L., YUAN S., YE Z., TANG K., BI W., RONG R., <strong><b>SAWAN M<\/b><\/strong>., SUN R., YIN X., ZHANG Y., TANG\u00a0Y.,&#8221;Enhanced Trimeric ACE2 Exhibits Potent Prophylactic and Therapeutic Efficacy against the SARS-CoV-2 Delta and Omicron Variants In Vivo&#8221;, <strong><em><b><i>Cell research<\/i><\/b><\/em><\/strong>, Vol. 32, No. 6, <strong><b>202<\/b><\/strong><strong><b>2<\/b><\/strong>,\u00a0pp. 589-592.\n\n<br \/><br \/>[296] ZHENG Y., BIAN S., RONG G., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cLabel-free LSPR-Vertical Microcavity Biosensor for On-site SARS-CoV-2 Detection\u201d, <strong><em><b><i>MDPI Biosensors, <\/i><\/b><\/em><\/strong>Vol. 12, No. 3, <strong><b>2022<\/b><\/strong>, 151.\n\n<br \/><br \/>[295] ALI M., HASSAN A., NABAVI M., AUDET Y., <strong><b>SAWAN, M.<\/b><\/strong>, SAVARIA, Y., &#8220;A Versatile SoC\/SiP Sensor Interface for Industrial Applications: Implementation Challenges&#8221;, <strong><em><b><i>IEEE<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Access<\/i><\/b><\/em><\/strong>, Vol. 10, <strong><b>2022<\/b><\/strong>, pp. 24540-24555.\n\n<br \/><br \/>[294] ZHANG H., RONG G.,<strong><b>\u00a0<\/b><\/strong>BIAN S., <strong><b>SAWAN M., <\/b><\/strong>\u201cLab-on-Chip Microsystems for <em><i>Ex Vivo<\/i><\/em>\u00a0Network of Neurons Studies: A Review\u201d,<strong><em><b><i>\u00a0Front. Bioeng. Biotechnol.,<\/i><\/b><\/em><\/strong>\u00a0Vol.16, No. 10,\u00a0<strong><b>202<\/b><\/strong><strong><b>2<\/b><\/strong>, 841389<strong><b>.<\/b><\/strong>\n\n<br \/><br \/>[293] MIRFAKHRAEI S., AUDET Y., HASSAN A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA\u00a0Fully Integrated Low-Power Hall-based Isolation Amplifier with IMR Greater than 120 dB\u201d, <strong><em><b><i>IEEE<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>TCAS-I<\/i><\/b><\/em><\/strong>, Vol 69, No. 4, April <strong><b>202<\/b><\/strong><strong><b>2<\/b><\/strong>, pp. 1385-1394.\n\n<br \/><br \/>[292] HASSAN A., NOEL J.-P., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cCircuit Techniques in GaN technology for High-Temperature Environments\u201d, <strong><em><b><i>MDPI<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>Electronics<\/i><\/b><\/em><\/strong>, Vol. 11, No. 1, 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J. of Microcomputer Applications<\/i><\/b><\/em><\/strong>, Vol. 13, no 3, March <strong><b>1994<\/b><\/strong>, pp. 142-147.\n\n<br \/><br \/>[9] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., \u201cA Transcutaneous Implantable Bladder Controller\u201d, <strong><em><b><i>Neurourology and Urodynamics<\/i><\/b><\/em><\/strong>, Vol. 13, no 3, December <strong><b>1993<\/b><\/strong>, pp. 281-284.\n\n<br \/><br \/>[8] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M., \u201cA New Bladder Stimulator: Hand-Held Controller and Miniaturized Implant; Preliminary Results on Dogs\u201d, <strong><em><b><i>Biomedical Instrumentation and Technology<\/i><\/b><\/em><\/strong>, Vol. 27, March <strong><b>1993<\/b><\/strong>, pp. 143-149.\n\n<br \/><br \/>[7] HASSOUNA, M., LI, J.S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., LATT, R., ELHILALI, M., \u201cThe Effect of Early Bladder Stimulation on Spinal Shock: \u00a0An Experimental Approach\u201d, <strong><em><b><i>Urology<\/i><\/b><\/em><\/strong>, Vol. 40, no 6, Dec. <strong><b>1992<\/b><\/strong>, pp. 563-573.\n\n<br \/><br \/>[6] LI, J.S., HASSOUNA, M, <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., ELHILALI, M.M., \u201cElectrical Stimulation Induced Sphincter Fatigue during Voiding\u201d, <strong><em><b><i>the Journal of Urology<\/i><\/b><\/em><\/strong>, Vol. 148, September <strong><b>1992<\/b><\/strong>, pp.\u00a0949-952.\n\n<br \/><br \/>[5] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M.M., LACHANCE, J., LECLAIR, M., POURMEHDI, S., MOUINE, J., \u201cComputerized Transcutaneous Control of a Multichannel Implantable Urinary Prosthesis\u201d, <strong><em><b><i>The IEEE Trans. on Biomedical Engineering<\/i><\/b><\/em><\/strong>, Vol. 39, no 6, June <strong><b>1992<\/b><\/strong>, pp. 600-609.\n\n<br \/><br \/>[4] LI, J.S., HASSOUNA, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., LATT, R., CARTER, K., COLLIER, B., M.M. ELHILALI, \u201cRole of Electric Stimulation in Bladder Evacuation Following Spinal Cord Action\u201d, <strong><em><b><i>The Journal of<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Urology<\/i><\/b><\/em><\/strong>, Vol. 147, May <strong><b>1992<\/b><\/strong>, pp. 1429-1434.\n\n<br \/><br \/>[3] NICOLAS, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0H\u00c9TU, R., LAROCHE, C., \u201cA Digitally Controlled Impulse Noise Generation System for the Study of the Ear Response to Impulses\u201d, <strong><em><b><i>Acoustics<\/i><\/b><\/em><\/strong>, Vol. 70, <strong><b>1990<\/b><\/strong>, pp.\u00a0112-126.\n\n<br \/><br \/>[2] EL-RIFAEI, A., HASSOUNA, M., FOUDA, A., LATT, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., ELHILALI, M.M., \u201cThe Effect of Early Bladder Stimulation on Spinal Shock: a preliminary report\u201d,<strong><em><b><i>\u00a0The Journal of Urology<\/i><\/b><\/em><\/strong>, Vol. 141, April <strong><b>1989<\/b><\/strong>, pp. 1010-1013.\n\n<br \/><br \/>[1] LAROCHE, C., H\u00c9TU, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NICOLAS, J., \u201cPreliminary Study of the Effect of the Spectral Content of Impulsive Noises on the Acquisition of Auditory Fatigue\u201d, <strong><em><b><i>Canadian Acoustics<\/i><\/b><\/em><\/strong>, Vol. 14, No.3, <strong><b>1986<\/b><\/strong>, pp. 31-47.\n<h3>B.\u00a0Refereed Conference Papers<\/h3>\n<br \/><br \/>[582] CHEN J., WU H., LIU X., ESKANDARI R., FANG C., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cNeuroBMI: a New Neuromorphic Implantable Wireless Brain Machine Interface with a 0.48 uW Event-Driven Noise-Tolerant Spike Detector&#8221;, <strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[581] SHEN Z., FANG C., TIAN F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cPN-TMS: Pruned Node-Fusion Tree-Based Multicast Scheme for Efficient Neuromorphic Systems&#8221;, <strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[580] WANG J., ZHAO S., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cLive Demonstration: Real-Time Analyses of Biosignals Based on a Dedicated CMOS Configurable Deep Learning Engine&#8221;, <strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[579] TIAN F., WANG X., CHEN J., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0TSUI C.Y., CHENG K.T., \u201cBinary Is All You Need: Ultra-Efficient Arrhythmia Detection with a Binary-Only Compressive System&#8221;,<strong><em><b><i>\u00a0IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[578] HE J., SHEN Z., TIAN F., CHEN J., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0CHENG K.T., BOGDAN P., TSUI C.Y., \u201cSNNOpt: an Application-Specific Design Framework for Spiking Neural Networks&#8221;, <strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[577] LI H., LONE A., TIAN F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0ELATAB N., \u201cNovel Knowledge Distillation to Improve Training Accuracy of Spin-Based SNN&#8221;, <strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hangzhou, China, Jun. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[576] CHEN Y., LIU K., GU X., ZHANG Z., YIN C., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cfNIRS Monitoring During Mechanical Thrombectomy for Outcomes Prediction&#8221;, <strong><em><b><i>ICBEA<\/i><\/b><\/em><\/strong>, Hangzhou, China, Apr <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[575] SHEN Z., YANG J., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cNBSSN: A Neuromorphic Binary Single-Spike Neural Network for Efficient Edge Intelligence\u201d, IEEE International Symposium on Circuits and Systems, Monterey, USA, May <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[574] FANG C., YANG J,<strong><b>\u00a0SAWAN M<\/b><\/strong>., \u201cA 217.8 MSOPs\/W FPGA-Based Online Learning SNN Processor Using Unified Event-Driven Structure and Topology Aware Data Reuse Strategies\u201d,\u00a0<strong><em><b><i>IEEE-ASSCC<\/i><\/b><\/em><\/strong>, Taipei, Nov. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[573] WU H., CHEN J., YANG J.,<strong><b>\u00a0<\/b><\/strong><strong><b>SAWAN M<\/b><\/strong><strong><b>.,<\/b><\/strong>\u00a0\u201cA Low-Power Low-Pass Filter for Noise Suppression in Chopped Bioamplifiers\u201d, Invited paper, <strong><em><b><i>IEEE-ICSICT<\/i><\/b><\/em><\/strong>, Nanjing, China, Oct. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[572] WU H.,\u00a0LIU X., YANG J.,\u00a0<strong><b>SAWAN M<\/b><\/strong><strong><b>.,<\/b><\/strong>\u00a0\u201cA Power-Efficient Source-Follower Based Tunable Pseudo-RC Low-Pass Filter for Wearable Biomedical Applications\u201d,\u00a0<strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, Taipei, Oct. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[571] ZHAO S., WU D., YANG J., <strong><b>SAWAN M<\/b><\/strong><strong><b>.,<\/b><\/strong>\u00a0\u201cA Resource-Efficient and Data-Restricted Training Method Towards Neurological Symptoms Prediction\u201d,\u00a0<strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, Taipei, Oct.<strong><b>\u00a0<\/b><\/strong><strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[570] ZHANG\u00a0Y., SAVARIA Y., ZHAO S., MORDIDO G., <strong><b>SAWAN M<\/b><\/strong>., LEDUC-PRIMEAU F., \u201cTiny CNN for Seizure Prediction in Wearable Biomedical Devices\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Glasgow, July <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[569] TARKHAN M., <strong><b>SAWAN M.<\/b><\/strong>, \u201cNew Design Methodology to Improve the Input-Referred Noise of Analog Front-End Circuits\u201d, <strong><em><b><i>IEEE-NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Quebec, Canada, June <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[568] LI N., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cCompact Closed-Loop EEG\/fNIRS Recording and TMS Neuromodulation System\u201d, <strong><em><b><i>IEEE-NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Quebec, Canada, June <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[567] KARIMI M., ALI M., AGHAJANI A., <strong><b>SAWAN M.<\/b><\/strong>, GOSSELIN B., \u201cHigh- and Low-Sides Asymmetric Deadtimes Generator for High-Efficiency Buck Converter Design\u201d, <strong><em><b><i>IEEE-NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Quebec, Canada, June <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[566] LI H., WANG J., ZHAO S., TIAN F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cReal-time Biosignal Recording and Machine-Learning Analysis System\u201d, <strong><em><b><i>IEEE-AICAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Korea, June <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[565] LI N., Yang J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cWearable Close-loop System based on EEG\/fNIRS Recording and Transcranial Magnetic Stimulation\u201d, <strong><em><b><i>IEEE-AICAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Korea, June <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[564] WU D., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cTowards Task-aware Signal Compression for Efficient Continuous Health Monitoring\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Dallas, USA, May <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[563] FANG C., SHEN Z., TIAN F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201c<em><i>A Compact Online-Learning Spiking Neuromorphic Biosignal Processor<\/i><\/em>\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Dallas, USA, May <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[562] CHEN J., TIAN F., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cAn Event-Driven Compressive Neuromorphic System for Cardiac Arrhythmia Detection\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Dallas, USA, May <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[561] TARKHAN M., ZHENG Y., RONG G., BIAN S., TAO Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cDetection of SARS-CoV-2 Using a Miniaturized Spectrometer Chip: A Comparative Study Against Benchtop Spectrometer and Its Potential Application to Handheld Detection\u201d, <strong><em><b><i>ICBEA,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, China, May <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[560] ZHANG H., WANG P., <strong><b>SAWAN M.<\/b><\/strong>, \u201cSingle Cell Manipulation and Characterization Intended to Study Pathology of Neural Diseases\u201d, <strong><em><b><i>ICBEA,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, China, May <strong><b>2022.<\/b><\/strong>\n\n<br \/><br \/>[559]<strong><b>\u00a0<\/b><\/strong>ALHOUSSEINY I., ALI M., BEN-HAMIDA N., HONARPARVAR M., <strong><b>SAWAN M.<\/b><\/strong>, SAVARIA Y., \u201cDelay-Locked Loop Based Multiphase Clock Generator for Time-Interleaved ADCs\u201d, <strong><em><b><i>IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>ICECS<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0Dubai, Hybrid, Nov.\u00a0<strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[558] BIAN S., <strong><b>SAWAN M.<\/b><\/strong>, \u201cRapid Biosensing SARS-CoV-2 Antibodies in Human Serum\u201d, <strong><em><b><i>The 43<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0PIERS,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, Nov. <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[557] BIAN S., TAO Y, <strong><b>SAWAN M.<\/b><\/strong>, \u201cBiosensing Carbamazepine in Human Serum of Epileptic Patients\u201d, <strong><em><b><i>The 43<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0PIERS,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, Nov. <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[556] CHEN Y., FANG C., CHEN E., HUANG L., <strong><b>SAWAN M.<\/b><\/strong>, \u201cCorrelation of Sleepiness Scale with Hemoglobin Concentration Variation: Experimental fNIRS Validation\u201d, <strong><em><b><i>The 43<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0PIERS,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, Nov. <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[555] YANG X., CHEN Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cPhotoacoustic generation in human brain with embedded blood vessel: Modeling and simulation\u201d, <strong><em><b><i>The 43<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0PIERS,<\/i><\/b><\/em><\/strong>\u00a0Hangzhou, Nov. <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[554] SARATI DAS P., GAGNON-TURCOTTE G., MASCRET Q., BOU ASSI E., TOFFA D.H., <strong><b>SAWAN M.<\/b><\/strong>, NGUYEN D.K., GOSSELIN\u00a0B., \u201cA Versatile Wearable sEMG Recording System for Long-Term Epileptic Seizure Monitoring&#8221;, <strong><em><b><i>IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>EMBC<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Nov.\u00a0<strong><b>2021<\/b><\/strong><strong><b>.<\/b><\/strong>\n\n<br \/><br \/>[553] XIA F., <strong><b>SAWAN M.<\/b><\/strong>, \u201cElectrode-Nerve Interface Properties to Treat the Obstructive Sleep Apnea through Electrical Stimulation&#8221;, <strong><em><b><i>IEEE-ICABME,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Beirut, Oct. <strong><b>2021<\/b><\/strong><strong><b>. <\/b><\/strong>\n\n<br \/><br \/>[552] WANG Z., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA Novel Multi-Scale Dilated 3D CNN for Epileptic Seizure Prediction\u201d, <strong><em><b><i>IEEE-AICAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[551] TIAN F., YANG J., ZHAO S., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA New Neuromorphic Computing Approach for Epileptic Seizure Prediction\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Korea, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[550] AMER A., ABUELNASR A., RAGAB A., HASSAN A., ALI M., GOSSELIN B.,<em><i>\u00a0<\/i><\/em><strong><b>SAWAN M.<\/b><\/strong>, SAVARIA Y., \u201cDesign and Analysis of Combined Input-Voltage Feedforward and PI Controllers for the Buck Converter\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Korea, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[549] KARIMI M., ALI M., HASSAN A., <strong><b>SAWAN M.<\/b><\/strong>, GOSSELIN B.,\u00a0\u201cA Reconfigurable Single-Suply Multiple-Level Down-Shifter for System-on-Chip Applications\u201d, <strong><em><b><i>IEEE-ISCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Korea, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[548] SALEHI M., ALI M., SAVARIA Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA 58 nW \u00b1 35 ppm\/oC Oscillator for IoT Battery-less Sensor Applications\u201d, <strong><em><b><i>IEEE-ICECS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Glasgow, Nov. <strong><b>2020.<\/b><\/strong>\n\n<br \/><br \/>[547] GAGLIANO L., BOU ASSI E., TOFFA D.H., NGUYEN D.K., <strong><b>SAWAN M<\/b><\/strong>., \u201cUnsupervised Clustering of HRV Features Reveals Preictal Changes in Human Epilepsy\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[546] KARIMI M., JOUAICHA H., LELLOUCHE F., BOUCHARD P.-A., <strong><b>SAWAN M<\/b><\/strong>., GOSSELIN B., \u201cA 6.78-MHz Robust WPT System with Inductive Link Bandwidth Extended for Cm-Sized Implantable Medical devices\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal,<strong><b>\u00a02020<\/b><\/strong>.\n\n<br \/><br \/>[545] GHARIB I., <strong><b>SAWAN M<\/b><\/strong>., \u201cMicrofluidic Valve Arrays for Drug Delivery in Organ-On-Chips\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[544] ELSAYEGH B., DUMOULIN C., ALI M., ASSAF H., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA Dynamometer-Based Wireless Pelvic Floor Muscle Force Monitoring\u201d,\u00a0<strong><em><b><i>IEEE-EMBC,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[543] ESMAEILZADEH M, ALI M., HASSAN A., AUDET Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cLow-Power High-Accuracy VCO-Based Comparator for Sensor Interface Applications\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[542] KARIMI M., ALI M., HASSAN A., WEBER-BOISVERT G., ABUELNASR A., <strong><b>SAWAN M.<\/b><\/strong>, GOSSELIN B., \u201cA 1.99-ns 0.5-pJ Wide Frequency Range Level Shifter with Closed-Loop Negative Feedback\u201d,<strong><em><b><i>\u00a0IEEE- NEWCAS<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020.<\/b><\/strong>\n\n<br \/><br \/>[541] HASSAN A., AMER M., SAVARIA Y., <strong><b>SAWAN M<\/b><\/strong>., \u201cTowards GaN500-Based High Temperature ICs: Characterization and Modeling Up to 600\u00b0C\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[540] AMER M., ALI M., ABUELNASR A., HASSAN A., NABAVI M., SAVARIA Y., <strong><b>SAWAN M<\/b><\/strong>., \u201cFully Integrated Dual-Channel Gate Driver and Area Efficient PID Compensator for Surge Tolerant Power Sensor Interface\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[539] GAGLIANO L., LESAGE F., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.<\/b><\/strong>, \u201cNeural Networks for Epileptic Seizure Prediction: Algorithms and Hardware Implementation\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[538] AKBARI M., HONARPARVAR M., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cOTA-Free MASH Two-Step Incremental ADC Based on Noise Shaping SAR ADCs\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[537] MIRFAKHRAEI S., AUDET Y., HASSAN A., ALI M., NABAVI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA CMOS MAGFET-Based Programmable Isolation Amplifier\u201d,\u00a0<strong><em><b><i>IEEE- NEWCAS<\/i><\/b><\/em><\/strong>, Virtual, Montreal,<strong><b>\u00a02020<\/b><\/strong>.\n\n<br \/><br \/>[536] ZHAO S., YANG J., XU Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cBinary Single-Dimensional Convolutional Neural Network for Seizure Prediction\u201d,\u00a0<strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020.<\/b><\/strong>\n\n<br \/><br \/>[535] NAJARPOUR-FOROUSHANI A., ASSAF H., HASHEMI-NOSHAHR F., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cAnalog Circuits to Accelerate the Relaxation Process in the Equilibrium Propagation Algorithm\u201d,\u00a0<strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020<\/b><\/strong>\n\n<br \/><br \/>[534] MIRFAKHRAEI S., NABAVI M., YOUNESS B., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0AUDET Y., \u201cWide Dynamic Range Front-End Programmable Isolation Amplifier Using Integrated CMOS Hall Effect Sensor\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020<\/b><\/strong>\n\n<br \/><br \/>[533] ESMAEILZADEH M., ALI M., HASSAN A., NABAVI M., GOSSELIN, B., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Tunable CMOS Thyristor-Based Pulse Generator for Integrated Sensor Interface Applications\u201d,\u00a0<strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[532] KARIMI M., NABAVI M., ALI M., HASSAN A., AMER M.,\u00a0<strong><b>SAWAN M.,<\/b><\/strong>\u00a0GOSSELIN B., \u201cA Versatile Non-Overlapping Signal Generator for Efficient Power-Converters Operation\u201d,\u00a0<strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020<\/b><\/strong>\n\n<br \/><br \/>[531] AKBARI M., HONARPARVAR M., SAVARIA Y, <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cOTA-Free Mash 2-2 Noise Shaping SAR ADC: System and Design Considerations\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Virtual, Sevilla, Spain, <strong><b>2020<\/b><\/strong>\n\n<br \/><br \/>[530] XU Y., YANG J., ZHAO S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cEnd-to-End deep learning approach for Epileptic Seizure Prediction using Intracranial and Scalp Electroencephalogram\u201d, <strong><em><b><i>IEEE-AICAS,<\/i><\/b><\/em><\/strong>\u00a0Virtual, Genova, Italy, Mar <strong><b>2020<\/b><\/strong>\n\n<br \/><br \/>[529] ALI M., NABAVI M., HASSAN A., HONARVARVAR M., SAVARIA Y. <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Versatile SoC\/SiP Sensor Interface for Industrial Applications: Design Considerations\u201d, <strong><em><b><i>IEEE-ICM, <\/i><\/b><\/em><\/strong>Cairo, Egypt<strong><em><b><i>, <\/i><\/b><\/em><\/strong>Dec <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[528] HASHEMI F., NABAVI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA 2.77mW, 80 ppm\/\u00baC Temperature Coefficient\u00a0Voltage Reference for Biomedical Implants\u201d,\u00a0<strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Genova, Italy, Nov <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[527] LI N., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cAn Efficient Real-Time Neural Spike Detection Engine with Automatic Templates Generation\u201d, <strong><em><b><i>IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>ICSAI<\/i><\/b><\/em><\/strong>, Shanghai, Oct <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[526] SAHA S., LESAGE F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cSmart Integrated-in-package Optode for Seizure Localization and Subsequent Detection\u201d,<strong><b>\u00a0<\/b><\/strong><strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Berlin, Gemany, Jul <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[525] GHARIB I., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cHigh-efficiency LED Driver for Short Fluorophores Lifetime Biosensing Applications\u201d,\u00a0<strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Munich, Germany, June <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[524] SAHA S., BURRI S., BRUSCHINI C., CHARBON E., LESAGE F., <strong><b>SAWAN M.<\/b><\/strong>, \u201cTime Domain NIRS Optode based on Null\/Small Source-Detector Distance for Wearable Applications\u201d, <strong><em><b><i>IEEE-CICC<\/i><\/b><\/em><\/strong>, Austin, Texas, USA, Apr <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[523] ASSAF H., SAVARIA Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cMemristor Emulators for an Adaptive DPE Algorithm: Comparative Study\u201d,\u00a0<strong><em><b><i>IEEE-AICAS<\/i><\/b><\/em><\/strong>, Hsinchu, Taiwan, Mar <strong><b>2019<\/b><\/strong>\n\n<br \/><br \/>[522] ASSAF, H., SAVARIA Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cVector Matrix Multiplication using Crossbar Arrays: A Comparative Analysis\u201d,\u00a0<strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Bordeaux, France, Dec <strong><b>2018<\/b><\/strong>\n\n<br \/><br \/>[521] SALAMI M., ABADI MHS., ABADI KHS., <strong><b>SAWAN M.<\/b><\/strong>, \u201cAptamers-Based Gold-Micro-Array for High-Selective Detection of Bacteria Using Fluorescence Microscopy\u201d,\u00a0<strong><em><b><i>IEEE-LSC, <\/i><\/b><\/em><\/strong>Montreal, Oct <strong><b>2018<\/b><\/strong>\n\n<br \/><br \/>[520] GAGLIANO L., BOU ASSI E., <strong><b>SAWAN M.<\/b><\/strong>, NGUYEN D.K.,<em><i>\u00a0<\/i><\/em>\u201cBicoherence of Intracranial EEG: A Novel Precursor of Seizure Activity in Canine Epilepsy\u201d,\u00a0<strong><em><b><i>IEEE-LSC, <\/i><\/b><\/em><\/strong>Montreal, Oct <strong><b>2018<\/b><\/strong>\n\n<br \/><br \/>[519] CHAMSEDDINE A., <strong><b>SAWAN M.<\/b><\/strong>,<em><i>\u00a0<\/i><\/em>\u201cDeep Learning Based Method for Output Regularization of the Seizure Prediction Classifier\u201d,\u00a0<strong><em><b><i>IEEE-LSC, <\/i><\/b><\/em><\/strong>Montreal, Oct <strong><b>2018<\/b><\/strong>\n\n<br \/><br \/>[518] TOKUDA T., PAKPUWADON T., HARUTA M., NODA T., SASAGAWA K., <strong><b>SAWAN M., <\/b><\/strong>OHTA J.,\u00a0\u201cCMOS-Based, Optically-Powered Implantable Optogenetic Stimulator\u201d, <strong><em><b><i>IEEE-LSC, <\/i><\/b><\/em><\/strong>Montreal, Oct <strong><b>2018<\/b><\/strong>\n\n<br \/><br \/>[517] ELZARIF, N., MONTAZERI, L., <strong><b>SAWAN M.<\/b><\/strong>, \u201cReal-Time Retinal Processing for High-Resolution Optogenetic Stimulation Device\u201d, <strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Haiwai, July <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[516] HASANUZZAMAN, M., WANG, G., RAUT, R., SAWAN, M., \u201cEnergy-Efficient Multichannel Intracortical Visual Stimulation\u201d, <strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Haiwai, July <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[515] TREMBLAY, J., MARTINEZ-MONTES, E., VANNASING, P., NGUYEN, D., <strong><b>SAWAN M.<\/b><\/strong>, LEPORE, F., LASSONDE, M. GALLAGHER, A.,\u00a0\u201cComparison of source localization techniques in Diffuse Optical Tomography for fNIRS application using a realistic head model\u201d, <strong><em><b><i>fNIRS<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong>Montr\u00e9al, <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[514] MONTAZERI, L., ELZARIF, N., <strong><b>SAWAN M.<\/b><\/strong>, \u201cOptical Control of Neural Dynamics Using LED Array\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, June <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[513] EGILA, M., BOU ASSI, E.,<strong><b>\u00a0SAWAN M.<\/b><\/strong>, \u201cNon-Linear Sequential SVM Classifier of Epileptic Seizures\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, June <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[512] ABUBAKR, A., HASSAN, A., RAGAB, A., YACOUT, S., SAVARIA, Y., SAWAN, M., \u201cHigh-Temperature Modeling of the I-V Characteristics of GaN150 HEMT Using Machine Learning Techniques\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[511] AMER, M., HASSAN, A., RAGAB, A., YACOUT, S., SAVARIA, Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cHigh-Temperature Empirical Modeling for the I-V Characteristics of GaN150-Based HEMT\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[510] NOGHABAEI, M., RADIN, R., SAVARIA, Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA High-Efficiency Ultra-Low-Power CMOS Rectifier for RF Energy Harvesting Applications\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[509] TOKUDA, T., NATTAKARN, W., ISHIZU, T., HARUTA, M., NODA T., SASAGAWA, K., OHTA, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cLive Demonstration: IoT Micronode with Optical ID Transmission Capability Operated by Optical Energy Harvesting\u201d, Poster, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[508] MONTAZERI, L., ELZARIF, N., TOKUDA, T., OHTA, J.,\u00a0<strong><b>SAWAN M.<\/b><\/strong>, \u201cActive Control of \u00b5LED Arrays for Optogenetic Stimulation\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[507] HONARPARVAR, M., DE LA ROSA, J., M., NABKI, F.,\u00a0<strong><b>SAWAN M.<\/b><\/strong>, \u201cDesign Considerations of MASH \u2206\u03a3 Modulators with GRO-Based Quantization\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Florence, Italy, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[506] BOU ASSI, E., NGUYEN, D., RIHANA, S., <strong><b>SAWAN M<\/b><\/strong>.,\u00a0\u201cRefractory Epilepsy: Detection, Prediction, and Localization\u201d, Invited, <strong><em><b><i>IEEE-ASICON<\/i><\/b><\/em><\/strong>, Guiyang, China, November <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[505] TANTIN, A., LETOURNEAU, A., ZGAREN, M., HACHED, S., CLAUSEN, I., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cImplantable MICS-based Wireless Solution for Bladder Pressure Monitoring\u201d, <strong><em><b><i>IEEE-BIOCAS, <\/i><\/b><\/em><\/strong>Torino, Italy, October <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[504] SAURIOL, PA., HASSOUNA, M., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cAn Optimized Electrotherapy Device for Overactive Bladder Treatment\u201d, <strong><em><b><i>IEEE-BIOCAS, <\/i><\/b><\/em><\/strong>Torino, Italy, October <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[503] HONARPARVAR M., DE LA ROSA J., NABKI F., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0\u201cNovel Band-Pass Delta-Sigma Modulators Based on a Modified Adder-Less Feed-Forward Structure\u201d, <strong><em><b><i>IEEE MWSCAS<\/i><\/b><\/em><\/strong>, Boston, USA, Aug. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[502] TRIGUI A., ALI M., AMMARI A.C., SAVARIA Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA 14.5 \u00b5W Generic Carrier Width Demodulator for Telemetry-Based Medical Devices\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Strasbourg, France, June <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[501] HASHEMI-NOSHAHR\u00a0F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Compact and Low Power Bandpass Amplifier for Low Bandwidth Signal Applications in 65-nm CMOS\u201d, <strong><em><b><i>IEEE ISCAS<\/i><\/b><\/em><\/strong>, Baltimore, USA, May <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[500] NOGHABAEI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Fully Integrated High-efficiency Step-up DC-DC Converter for Energy Harvesting Applications\u201d, <strong><em><b><i>IEEE ISOCC<\/i><\/b><\/em><\/strong>, Jeju, Korea, Oct <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[499] BOU ASSI, E., NGUYEN DK., RIHANA S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA 2D Clustering Approach Investigating Inter-hemispheric Seizure Flow by Means of a Directed Transfer Function\u201d, <strong><em><b><i>IEEE-MECBME,<\/i><\/b><\/em><\/strong>\u00a0Beirut, Lebanon, <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[498] RESAEI, M., MAGHSOUDLOO E., <strong><b>SAWAN M.<\/b><\/strong>, GOSSELIN B., \u201cA 110-nw In-Channel Sigma-Delta Converter for Large-Scale Neural Recording Implants\u201d, <strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August<strong><b>\u00a02016<\/b><\/strong>.\n\n<br \/><br \/>[497] CHAMPAGNE PO., NGUYEN DK., CARMANT L., BOUTHILLIER A., SANON NT., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cBehavior of Superparamagnetic Nanoparticles in Regard of Brain Activity \u2013 a Proof of Concept\u201d, <strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[496] HAMMOUD A., CHAMSEDDINE A., NGUYEN DK., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cTowards an Implantable Bio-Sensor Platform for Continuous Real-Time Monitoring of Anti-Epileptic Drugs\u201d, <strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[495] MENDEZ A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cReal-time monitoring of the bladder volume to improve effectiveness of implantable neuroprosthesis\u201d, <strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[494] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConnecting Wearable and Implantable Medical Devices to Internet for Remote Sensing and Treatment\u201d, Invited paper, <strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[493] FARTOUMI, S., EMERIAUD G., SAVY N., BERNARD F., JOUVET P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cReal-time Diagnosis of Cerebral Status Following Traumatic Brain Injury Using Fuzzy Min-Max Neural Networks\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Orlando, USA, August <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[492] ZGAREN, M., MOHAMAD, S., AMIRA, A.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cEPC Gen-2 UHF RFID Tags with Low-Power CMOS Temperature Sensor Suitable for Gas Applications\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Vancouver, Canada, June <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[491] TRIGUI, A., ALI, M., SAVARIA, Y., AMMARI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cQuad-Level Carrier Width Modulation Demodulator for Micro-Implants\u201d, Poster<strong><em><b><i>, IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Vancouver, Canada, June <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[490] ALI, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SHAWKEY, H., ZEKRY, A., \u201cPLL Based BFSK Subcarrier Generator for FM-UWB Transmitter\u201d, Poster,<strong><em><b><i>\u00a0IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Vancouver, Canada, June <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[489] NABOVATI, G., GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Novel Multifunctional Integrated Biosensor Array for Simultaneous Monitoring of Cell Growth and Acidification Rate\u201d, <strong><em><b><i>IEEE Circuits and Systems Forum on Emerging and Selected Topics (CASFEST), <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[488] NABOVATI, G., GHAFAR-ZADEH, E., LETOURNEAU, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cLive Demonstration: CMOS Capacitive Sensor Array for Real-Time Analyses of Living Cells\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[487] ALI, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SHAWKEY, H., ZEKRY, A., \u201cFM-UWB Transmitter for Wireless Body Area Networks: Implementation and Simulation\u201d, Poster,<strong><em><b><i>\u00a0IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[486] HONARPARVAR, M., SAFI-HARB, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Amplifier-Shared Inverter-Based Mash Structure \u0394\u03a3 Modulator for Smart Sensor Interfaces\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[485] SAHA S., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cTime-Resolved Reflectance Using Short Source-Detector Separation\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[484] MAGHSOUDLOO E., REZAEI, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cA New Charge Balancing Scheme for Electrical Microstimulators Based on Modulated Anodic Stimulation Pulse Width\u201d, Poster, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[483] NABOVATI, G., GHAFARZADEH, E., LETOURNEAU, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cCMOS Capacitive Sensor Array for Real-Time Analyses of Living Cells\u201d, <strong><em><b><i>Invited,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[482] HASSAN, A., TRIGUI, A., SHAFIQUE, U., SAVARIA, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cWireless Power Transfer Through Metallic Barriers Enclosing a Harsh Environment, Feasibility and Preliminary Results\u201d, <strong><em><b><i>Poster, IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[481] LI, N., OSBORN, M., FANG, L., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUsing Template Matching and Compressed Sensing Techniques to Enhance Performance of Neural Spike Detection and Data Compression Systems\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[480] YU, X., ESAUN, M., MACKAY, S., CHEN, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0WISHARD, D., HIEBERT W., \u201cAn Impedance Detection Circuit for Applications in a Portable Biosensor System\u201d, Poster,<strong><em><b><i>\u00a0IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[479] HAFLIGER, P., NABOVATI, G., WAGNER, N., GRECO, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0BIRGE, R., \u201cCombined Optical and Chemical Asynchronous Event Pixel Array\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[478] GHAFAR-ZADEH, E.,\u00a0AYALA-CHARCA G., MATYNIA, M., MAGIEROWSKI, S., GHOLAMZADEH, B.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cTowards Free-Breathing Spirometery-on-Chip: Design, Implementation and Preliminary Experimental Results\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[477] SAHA, S., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh-Voltage Pulse Generator with Variable Delay for Ultrafast Gating of Single Photon Detector\u201d, <strong><em><b><i>IEEE-Latin American Sym. Circuits &amp; Systems (LASCAS), <\/i><\/b><\/em><\/strong>Florianopolis, Brazil, <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[476] HASSAN, A., TRIGUI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cWireless Monitoring of Collagen Progression around Implantable Prostheses\u201d, <strong><em><b><i>IEEE &#8211; Latin American Sym. Circuits &amp; Systems (LASCAS), <\/i><\/b><\/em><\/strong>Florianopolis, Brazil, <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[475] HASSAN, A., GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUltra-Low Power CMOS Voltage Reference for High Temperature Applications Up to 300oC\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Cairo, December <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[474] ZGAREN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA High-Sensitivity Battery-Less Wake-Up Receiver for 915 MHz ISM Band Applications\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Cairo, December <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[473] MOHAJERTEHRANI, M., SHAFIQUE, U., SAVARIA, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHarvesting Energy from Data Lines for Avionics Applications: Power Conversion Chain Architecture\u201d, <strong><em><b><i>IEEE-ICM, <\/i><\/b><\/em><\/strong>Casablanca, Morocco, Dec <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[472] BOU ASSI, E., NGUYEN, D., RIHANA, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Hybrid mRMR-Genetic Based Selection Method for The Prediction of Epileptic Seizures\u201d, <strong><em><b><i>IEEE-BIOCAS, <\/i><\/b><\/em><\/strong>Atlanta, USA, November<strong><b>\u00a02015<\/b><\/strong>.\n\n<br \/><br \/>[471] HASSAN, A., SAWMA C., HASANUZZAMAN, M., GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cSpatial Carrier Position Modulation Based Multichannel Capacitive Link for Bioelectronic Implants\u201d, <strong><em><b><i>IEEE-BIOCAS, <\/i><\/b><\/em><\/strong>Atlanta, USA, November <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[470] SAWMA, C., KASSEM, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cCapacitive Data Links Intended for Implantable Medical Devices: A Survey\u201d, <em><i>IEEE-ICABME, <\/i><\/em>Beirut, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[469] ZGAREN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUltra Low-power Transceiver with Novel FSK Modulation Technique and Efficient FSK-to ASK Demodulation\u201d, <strong><em><b><i>The 37th<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Milan, Italy, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[468] GHANE-MOTLAGH, B., CHOUEIB, M., JAVANBAKHT T., SHOGHI, F., WILKINSON K.J., MARTEL, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh-Density 3D Microelectrode Arrays for Brain-Machine Interfaces\u201d, <strong><em><b><i>The 37th<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Milan, Italy, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[467] WATSON, M., DANCAUSE N., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cEfficient Microstimulation of the Brain: A Parametric Approach\u201d, <strong><em><b><i>The 37th<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Milan, Italy, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[466] GAGNON-TURCOTTE, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cLow-Power Adaptive Spike Detector Based on a Sigma-Delta Control Loop\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0The 37th<\/i><\/b><\/em><\/strong><em><i>\u00a0<\/i><\/em><strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Milan, Italy, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[465] AKBAR, M.A., AIT SI ALI, A., AMIRA, A., BENSAALI, F., BENAMMAR, M., ZGAREN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0BERMAK, A.,\u00a0\u201cReceiver Design of Passive UHF RFID Sensor Platform for Gas Identification\u201d, The<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>6<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0International Conference on Sensor Device technologies<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>and Applications<\/i><\/b><\/em><\/strong>, Venice, Italy, August <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[464] MAGHSOUDLOO, E., REZAEI, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cA Power-Efficient Wide-Range Signal Level-Shifter\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Grenoble, France, June <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[463] REZAEI, M, MAGHSOUDLOO, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cA Novel Multichannel Analog-to-Time Converter Based on a Multiplexed Sigma Delta Converter\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Grenoble, France, June <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[462] SAFFARI, P., TAHERZADEH-SANI, M., BASALIGHEH, A., NABKI, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDesign of a 0.13\u00a0\u00b5m CMOS Common-Drain Power Amplifier for Low-Power Short-Range Applications\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Grenoble, France, June <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[461] NABOVATI, G., GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA 64-pixel ISFET-based biosensor for extracellular pH gradient monitoring\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Lisbon, Portugal, May <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[460] ZABIHIAN, A., SODAGAR, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDistributed Intracortical Neural Interfacing: Network Protocol Design\u201d, <strong><em><b><i>IEEE-Neural Engineering (NER) Conference, <\/i><\/b><\/em><\/strong>Montpellier, France, April <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[459] LI, N., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh Compression Rate and Efficient Spikes Detection System Using Compressed Sensing Technique for Neural Signal Processing\u201d, <strong><em><b><i>IEEE-Neural Engineering (NER) Conference, <\/i><\/b><\/em><\/strong>Montpellier, France, April <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[458] WANG, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh-Efficiency CMOS Rectifier Dedicated for Multi-Band Ambient RF Energy Harvesting\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Marseille, France, Dec <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[457] MIRBOZORGI, A., BAHRAMI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cResonance-based Multicoil Array Structure for Enabling Multi-Receiver Long-term In-Vivo Monitoring with Natural Power Localization Feature\u201d, Invited, <strong><em><b><i>IEEE-BioCAS Conference, <\/i><\/b><\/em><\/strong>Lausanne<strong><em><b><i>, <\/i><\/b><\/em><\/strong>Switzerland, Nov. <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[456] MIRBOZORGI, A., AMELI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cTowards a Wireless Optical Stimulation System for Long Term In-Vivo Experiments\u201d, Invited, <strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>Chicago, USA, Sept <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[455] BENDER-MACHADO, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0CHEREM-SCHNEIDER, M., GALUP-MONTORO, C., \u201c10 mV\u20131V Step-up Converter for Energy Harvesting Applications\u201d, Best paper award, <strong><em><b><i>IEEE-SBCCI, <\/i><\/b><\/em><\/strong>Aracaju, Brazil, Sept. <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[454] AHMADI-TAMEH, T., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0KASHYAP, R., \u201cSelf-Referencing Ratio-Metric Optical Rotation Sensor for Avionic Application\u201d, <strong><em><b><i>OSA- Optical and Photonics Congress, <\/i><\/b><\/em><\/strong>Barcelona, Spain, July <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[453] HACHED, S., GARON, A., LOUTOCHIN, O., CORCOS J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cSphincter urinaire artificial intelligent : preserver organs et qualit\u00e9 de vie du patient\u201d, <strong><em><b><i>Handicap, <\/i><\/b><\/em><\/strong>France, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[452] BENDER-MACHADO, CHEREM-SCHNEIDER, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GALUP-MONTORO, C., \u201cFully-Integrated 86 mV \u2013 1V Step-up Converter for Energy Harvesting Applications\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Trois-Rivi\u00e8res, Canada, <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[451] ZGAREN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cFrequency-to-Amplitude Converter based FSK Receiver for Ultra-Low Power Transceivers\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Trois-Rivi\u00e8res, Canada, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[450] NABOVATI, G., GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNovel DC-input \u03a3\u0394 Capacitance-to-Digital Convertor for Biosensor Applications\u201d, <strong><em><b><i>IEEE-NEWCAS, <\/i><\/b><\/em><\/strong>Trois-Rivi\u00e8res, Canada, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[449] ZHENG, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Microsystem for Magnetic Immunoassay Towards Protein Toxins Detection\u201d, Invited, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Melbourne, Australia, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[448] NABOVATI, G., GHAFAR-ZADEH, E., MIRZAEI, M., AYALA, G., AWWAD, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cFully Integrated CMOS Capacitive Sensor for Lab-on-Chip Applications\u201d, Invited, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Melbourne, Australia, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[447] MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cReconfigurable Lab-on-Chip Platform for Algae Cell Manipulation\u201d, Invited, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Melbourne, Australia, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[446] MAGHAMI, MH., SODAGAR, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cBiphasic, Energy-Efficient, Current-Controlled Stimulation Back-End for Retinal Visual Prosthesis\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Melbourne, Australia, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[445] MENDEZ, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA custom signal processor based neuroprosthesis intended to recover urinary bladder functions\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Melbourne, Australia, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[444] FACCHIN, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MILED, A., \u201cIn-Channel Droplet-Based Micro-Sampling Technique for Lab-On-Chip\u201d, <strong><em><b><i>IEEE <\/i><\/b><\/em><\/strong><strong><em><b><i>CEFC&#8217;14<\/i><\/b><\/em><\/strong><strong><em><b><i>, <\/i><\/b><\/em><\/strong>France, May <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[443] HACHED, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Bluetooth-based Low-energy Qi-compliant Battery Charger for Implantable Medical Devices\u201d, <strong><em><b><i>IEEE-ISBB<\/i><\/b><\/em><\/strong>, Taoyuan, Taiwan, April <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[442] BOUALI, M., AUCLAIR, B., MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn On-Chip Programmable Multichannel Power Supply for a Lab-on-Chip Platform\u201d, <strong><em><b><i>IEEE-ISBB<\/i><\/b><\/em><\/strong>, Taoyuan, Taiwan, April <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[441] CHEBLI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cChopped Logarithmic Programmable Gain Amplifier Intended to EEG Acquisition Interface\u201d, <strong><em><b><i>IEEE Int\u2019l Conf. on Microelectronics <\/i><\/b><\/em><\/strong>(<strong><em><b><i>ICM), <\/i><\/b><\/em><\/strong>Beirut, Lebanon, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[440] ZHANG, J., HASHEMI, S., KARIMIAN, M., KOUBAA, Z., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Novel Power Harvesting Scheme for Sensor Networks in Advanced Avionic Applications\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Abu Dhabi, UAE, December 2013.\n\n<br \/><br \/>[439] LI, N., SEMMAOUI, H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cModified Maximum and Minimum Spread Estimation Method for Detection of Neural Spikes\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Abu Dhabi, UAE, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[438] XING, P., MILED, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cGlutamate, GABA And Dopamine Hydrochloride Concentration Effects on The Conductivity and Impedance of Cerebrospinal Fluid\u201d, <strong><em><b><i>6th International IEEE EMBS Conference on Neural Engineering<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>San Diego, CA, 6<sup>th<\/sup>-8<sup>th<\/sup>\u00a0November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[437] HASANUZZAMAN, M., RAUT, R., and <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cEnergy-Efficient High-Voltage Compliant Microstimulator And Recording Interface for Implantable Brain-Machine Interface\u201d, <strong><em><b><i>IEEE-Int\u2019l Biomedical Circuits and Systems Conference<\/i><\/b><\/em><\/strong>, Rotterdam, Netherlands, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[436] MASSICOTTE, G.,<em><i>\u00a0<\/i><\/em><strong><b>SAWAN, M.,<\/b><\/strong>\u00a0CARRARA, S.<em><i>, <\/i><\/em>DE MICHELI, G., \u201cMulti-Electrodes Amperometric Biosensor for Neurotransmitters Detection\u201d, <strong><em><b><i>IEEE-Int\u2019l Biomedical Circuits and Systems Conference<\/i><\/b><\/em><\/strong>, Rotterdam, Netherlands, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[435] GHANE-MOTLAGH, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Review of Microelectrode Array Technologies: Design and Implementation Challenges\u201d, <strong><em><b><i>IEEE-ICABME, <\/i><\/b><\/em><\/strong>Tripoli, Lebanon, September <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[434] CHEBLI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cLow Noise and High CMRR Front-End Amplifier Dedicated to Portable EEG Acquisition System\u201d, <strong><em><b><i>IEEE-Eng. Medicine and Biology Conference<\/i><\/b><\/em><\/strong>\u00a0(<strong><em><b><i>EMBC), <\/i><\/b><\/em><\/strong>Osaka, Japan, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[433] MIRBOZORGI, S.A., GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cMulticoil Resonance-Based Parallel Array for Smart Wireless Power Delivery\u201d, <strong><em><b><i>IEEE-Eng. Medicine and Biology Conference, <\/i><\/b><\/em><\/strong>Osaka, Japan, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[432] MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cLow-Voltage DEP Microsystem for Submicron Particle Manipulation in Artificial Cerebrospinal Fluid\u201d, <strong><b>Invited paper<\/b><\/strong>, <strong><em><b><i>IEEE-Eng. Medicine and Biology Conf., <\/i><\/b><\/em><\/strong>Osaka, Japan, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[431] GHOLAMZADEH, B., GHAFAR-ZADEH, E., AWWAD, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cToward Implantable Glucometer: Design, Modeling and Experimental Results\u201d, <strong><b>Invited paper<\/b><\/strong>, <strong><em><b><i>IEEE-Eng. Medecine &amp; Biology Conference, <\/i><\/b><\/em><\/strong>Osaka, Japan, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[430] KAMRANI, E., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cTowards On-Chip Integration of Brain Imaging Photodetecors Using Standard CMOS Process\u201d, <strong><em><b><i>IEEE-Eng. Medicine and Biology Conference, <\/i><\/b><\/em><\/strong>Osaka, Japan, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[429] NABOVATI, G., GHAFAR-ZADEH, E., AWWAD, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Sigma Delta ISFET Readout Circuit for Lab-on-Chip Applications\u201d, <strong><em><b><i>IEEE Int\u2019l NEWCAS Conference, <\/i><\/b><\/em><\/strong>Paris, France, June <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[428] MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA 0.18\u00b5m CMOS Multilayer and Low Resistive Load Architecture Dedicated for LoC Applications\u201d, <strong><em><b><i>IEEE Int\u2019l NEWCAS Conference, <\/i><\/b><\/em><\/strong>Paris, France, June <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[427] MORADI, A., ZGAREN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA 0.084 nJ\/B FSK Transmitter and 4.8 \u00b5W OOK Receiver for ISM-Band Medical Sensor Networks\u201d, Invited Paper, <strong><em><b><i>IEEE Int\u2019l NEWCAS Conference, <\/i><\/b><\/em><\/strong>Paris, France, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[426] MAAMOUN, M., BRADAI, R., NADERI A., BEGUENANE, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cControlled Start-Up Stochastic Decoding of LDPC Codes\u201d, <strong><em><b><i>IEEE Int\u2019l NEWCAS Conference, <\/i><\/b><\/em><\/strong>Paris, France, June <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[425] TRIGUI, A., HACHED, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAutomatic control of inductive energy transmitted to electronic implants\u201d, <strong><em><b><i>International Symposium on Wireless Power Transmission<\/i><\/b><\/em><\/strong>\u00a0(<strong><em><b><i>ISPWT), <\/i><\/b><\/em><\/strong>Guiyang, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[424] HACHED, S., LOUTOCHIN, O., CORCOS, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Novel Remotely Controlled Artificial Urinary Sphincter\u201d, <strong><em><b><i>The 2<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>nd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Int\u2019l Conference of Rehabilitation Medical Engineering, <\/i><\/b><\/em><\/strong>Shanghai, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[423] HASANUZZAMAN, M., SIMARD, G., KROUCHEV, N., RAUT, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cCapacitive-Data Links, Energy-Efficient and High-Voltage Compliant Visual Intracortical Microstimulation System\u201d, Invited paper, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Beijing, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[422] ZHENG, Y., JACQUEMOD, C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Portable Lab-on-chip Platform for Magnetic Beads Density Measuring\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Beijing, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[421] MOAZZINI, S., COWAN, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Mismatch-Robust Period-Based VCO Frequency Comparison Technique for ULP Receivers\u201d, Poster, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Beijing, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[420] AMERI, M., KAMRANI, E., HASHEMI, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8221; A Fast Quench-Reset Integrated Circuit for High-Speed Single Photon Detection&#8221;, <strong><em><b><i>The 8th IEEE International symposium on Medical Measurements and Applications (MeMeA),<\/i><\/b><\/em><\/strong>\u00a0Gatineau, Quebec, Canada, May 4-5, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[419] MASSICOTTE, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8221; An Efficient Time-Based CMOS Potentiostat for Neurotransmitters Sensing&#8221;, <strong><em><b><i>IEEE Int\u2019l Symposium on Medical Measurements and Applications (MeMeA),<\/i><\/b><\/em><\/strong>\u00a0Gatineau, Canada, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[418] HAMIE, A., GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8221; An Implantable Micropump Prototype for Focal Drug Delivery&#8221;, <strong><em><b><i>IEEE Int\u2019l Symposium on Medical Measurements and Applications (MeMeA),<\/i><\/b><\/em><\/strong>\u00a0Gatineau, Canada, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[417] CHADDAD, A., KAMRANI, E., LE LAN, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;De-noising fNIRS Signals to Enhance Brain Imaging Diagnosis&#8221;, <strong><em><b><i>29<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Southern Biomedical Engineering Conference (SBEC\u201913),<\/i><\/b><\/em><\/strong>\u00a0Miami, FL, USA, May 3-5, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[416] KAMRANI, E., HAMADY, M., LESAGE F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Modeling and Characterizing Optical CMOS, Sensors for Biomedical Low-Intensity Light Detection&#8221;, <strong><em><b><i>29th Southern Biomedical Eng. Conf.,<\/i><\/b><\/em><\/strong>\u00a0Miami, FL, USA, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[415] KAMRANI, E., CHADDAD, A., LESAGE F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Integrated Transimpedance Amplifiers Dedicated to Low-Noise and Low-Power Biomedical Applications&#8221;, <strong><em><b><i>29th Southern Biomedical Engineering Conference (SBEC\u201913),<\/i><\/b><\/em><\/strong>\u00a0Miami, FL, USA, May 3-5, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[414] KAMRANI, E., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;On-Chip Single Photon Counting Electronic Circuitry Dedicated to Real-Time Brain Imaging Applications&#8221;, <strong><em><b><i>29th Southern Biomedical Engineering Conference (SBEC\u201913),<\/i><\/b><\/em><\/strong>\u00a0Miami, FL, USA, May 3-5, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[413] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0KASHYAP, R., EL_GAMAL, M., \u201cConfigurable Contactless Optical and MEMS Based Position Sensors for Avionic Applications\u201d, <strong><em><b><i>International Symposium on Research &amp; Innovation For<\/i><\/b><\/em><\/strong><em><i>\u00a0<\/i><\/em><strong><em><b><i>Transport Systems Of The Future (RITF),<\/i><\/b><\/em><\/strong><em><i>\u00a0<\/i><\/em>Paris, December <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[412] ZHANG, J., HASHEMI, S., KARIMIAN, M., KOUBAA, Z., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cPower Recovery From Data Line in Avionic Applications\u201d, <strong><em><b><i>IEEE-ICM, <\/i><\/b><\/em><\/strong>Algeria, December <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[411] HAMADY, M., KAMRANI, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cModeling CMOS PIN Photodiode using COMSOL\u201d, <strong><em><b><i>IEEE-ICM, <\/i><\/b><\/em><\/strong>Algeria, December <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[410] MORADI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA 20 Mb\/s 0.084 nJ\/bit ISM-Band Transmitter Dedicated to Medical Sensor Networks\u201d, <strong><em><b><i>IEEE-ICECS, <\/i><\/b><\/em><\/strong>Sevilla, Spain, December <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[409] HASHEMI, S., KARIMIAN, M., ZHANG, J., NADERI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cGeneric Architecture for a Self-Powered Smart Sensor Interface in Avionic Applications\u201d, <strong><em><b><i>SAE, Phoenix, USA, <\/i><\/b><\/em><\/strong>November <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[408] MIRZAEI, M., SALAM M.T., NGUYEN, D., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Integrated Low-Power Asynchronous Epileptic Seizure Detector\u201d, <strong><em><b><i>IEEE-BioCAS, <\/i><\/b><\/em><\/strong>November <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[407] HAWI, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cPhase-based Passive Stereovision Systems Dedicated to Cortical Visual Stimulators\u201d, <strong><em><b><i>IEEE-ICCD<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em>September <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[406] GHAFAR-ZADEH, E., GHOLAMZADEH, B., AWWAD, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cOn-Chip Electroporation: Characterization, Modeling and Experimental Results\u201d, <strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>September <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[405] KAMRANI, E., YUN, S.H.A., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Near Infra-Red Light Detection Using Silicon Avalanche Photodiodes: Design Challenges in Standard CMOS Technology&#8221;, Best paper Award, <strong><em><b><i>SPIE 11th Int\u2019l Conf. on Infrared Optoelectronics: Materials &amp; Devices<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>(ICIOMD),<\/i><\/b><\/em><\/strong>\u00a0Chicago, Sept <strong><b>2012<\/b><\/strong>, pp. 54-55.\n\n<br \/><br \/>[404] KAMRANI, E., YUN, S.H.A., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Optimal-Adaptive Control System for Low-Noise, Low-Power and Fast Photodetection in Functional Near Infra-Red Spectroscopy&#8221;, Proc. of <strong><em><b><i>SPIE- ICIOM,<\/i><\/b><\/em><\/strong>\u00a0Chicago, IL, USA, 4 \u2013 8, September <strong><b>2012<\/b><\/strong>, pp. 56-57.\n\n<br \/><br \/>[403] KAMRANI, E., YUN, S.H.A., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;State-of-the-Art Logarithmic Transimpedance Amplifier with Automatic Gain Control and Ambient Light Rejection for fNIRS&#8221;, <strong><em><b><i>SPIE- ICIOM<\/i><\/b><\/em><\/strong>, Chicago, Sept <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[402] KAMRANI, E., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Fast Photodetection in Functional Near Infra-Red Spectroscopy&#8221;, <strong><em><b><i>SPIE- ICIOM<\/i><\/b><\/em><\/strong>, Chicago, IL, USA, 4 &#8211; 8 September <strong><b>2012<\/b><\/strong>, pp. 57-58.\n\n<br \/><br \/>[401] KAMRANI, E., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Premature Edge Breakdown Prevention Techniques in APD fabrication&#8221;, The 10th IEEE International NEWCAS Conference (NEWCAS2012), Montreal, Canada, June 17-20, <strong><b>2012<\/b><\/strong>, pp. 345-348.\n\n<br \/><br \/>[400] MILED, M.A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cElectrode Robustness in Artificial Cerebrospinal Fluid for Dielectrophoresis-Based LoC\u201d, <strong><em><b><i>IEEE-EMBC, <\/i><\/b><\/em><\/strong>September <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[399] NABOVATI, G., GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cFully Digital Low-Power Self-Calibrating BPSK Demodulator for Implantable Biosensors\u201d, <strong><em><b><i>IEEE-MWSCAS, <\/i><\/b><\/em><\/strong>August <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[398] HASANUZZAMAN, M., RAUT, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA High-Impedance Microelectrode Driver Dedicated for Visual Intracortical Microstimulation\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-MWSCAS, <\/i><\/b><\/em><\/strong>August <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[397] HOSSEINI-KHAYAT, S., BAHMANYAR, P., RAHIMINEZHAD, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUltra-low Power Encryption Engine for Wireless Implantable Medical Devices\u201d, <strong><em><b><i>IEEE-MWSCAS, <\/i><\/b><\/em><\/strong>August <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[396] KARGARAN, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MAFINEZHAD, K., NABOVATI, H., \u201cDesign of 0.4V, 386nW OTA Using DTMOS Technique for Biomedical Applications\u201d, <strong><em><b><i>IEEE-MWSCAS, <\/i><\/b><\/em><\/strong>August <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[395] SALAM, M.T., HAMIE, A.H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D.K.,\u00a0\u201cA Smart Biological Signal-Responsive Focal Drug Delivery System for Treatment of Refractory Epilepsy\u201d, <strong><em><b><i>CIMTEC<\/i><\/b><\/em><\/strong>, Italy, June <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[394] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SALAM, M.T., GELINAS, S., LELAN, J., LESAGE, F., NGUYEN, D.K.,\u00a0\u201cCombined NIRS-EEG Remote Recordings for Epilepsy and Stroke Real-Time Monitoring\u201d, <strong><em><b><i>Invited Paper, IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seoul, Korea, <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[393] MOAZZINI, S., COWAN, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA 28\u03bcW Sub-Sampling Based Wake-Up Receiver with -70dBm Sensitivity for 915MHz ISM Band Applications\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seoul, Korea, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[392] KARIMIAN, M., HASHEMI, S., NADERI, A., SAWAN, M.,\u00a0\u201cImpact of Gradient Error on Switching Sequence in High-Accuracy Thermometer-Decoded Current- Steering DACs\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seoul, Korea, May<strong><b>\u00a02012<\/b><\/strong>.\n\n<br \/><br \/>[391] KAR, G.C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cLow-Power High-Voltage Charge Pumps for Implantable Microstimulators\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seoul, Korea, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[390] AL-SAYED, M., NABKI, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0EL-GAMAL, M., \u201cA 5\u00a0V MEMS Gyroscope with 3.14\u00a0aF\/<sup>o<\/sup>\/s Sensitivity, 0.6<sup>o<\/sup>\/\u00d6hr Mechanical Noise and Drive-Sense Crosstalk Minimization\u201d, <strong><em><b><i>IEEE-ICM<\/i><\/b><\/em><\/strong>, Hammamet, Tunisia, <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[389] LAFLAMME-MAYER, N., BLAQUI\u00c8RE, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Novel Configurable Bandgap Reference Dedicated to Wafer-Scale Systems Integration\u201d, <strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Beirut, Lebanon, Dec <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[388] TARIQUS-SALAM, M., DESGENT, DUSS, S., CARMANT, L., NGUYEN, D., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNew Subdural Electrode Contacts for Intracerebral Electroencephalographic Recordings: Comparative Studies on Neural Signal Recording in Vivo\u201d, <strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, San Diego, USA, Nov <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[387] DROLET, J., SEMMAOUI, H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cLow-Power Energy-Based CMOS Digital Detector for Neural Recording Arrays\u201d, <strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, San Diego, USA, Nov <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[386] KAMRANI, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cFully Integrated CMOS Avalanche Photodiode and Distributed-Gain TIA for CW-fNIRS\u201d, Poster at <strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, San Diego, USA, Nov <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[385] RODRIGUEZ-PEREZ, A., RUIZ-AMAYA, J., DELGADO-RESTITUTO M.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Self-Calibration Circuit for a Neural Spike Recording Channel\u201d, <strong><em><b><i>IEEE-BIOCAS<\/i><\/b><\/em><\/strong>, San Diego, USA, Nov <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[384] SAFI-HARB, M., TARIQUS-SALAM, M., MIRABASI, S., NGUYEN, D., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Low-Power High-Sensitivity CMOS Mixed-Signal Seizure-Onset Detector\u201d, <strong><em><b><i>Invited paper at the IEEE-EMBC<\/i><\/b><\/em><\/strong>, Boston, Sept <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[383] KAMRANI, E., SULTANA, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Tunable, low-power, high-gain Transimpedance amplifier for fNIRS photoreceiver front-end&#8221;, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Seoul<strong><b>, <\/b><\/strong>Korea, August <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[382] SIMARD, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MASSICOTTE, D., \u201cLow-Power High-Speed Capacitive Transdermal Spatial Pulse Position Modulation Communication\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0Bordeaux, France, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[381] SAIZ-VELA, A., MOUNAIM, F., MIRIBEL-CATAL\u00c3, P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cMiniaturized Sip Supply Board Based on TPVD Charge Pump ICs for High-Voltage Biomedical Applications\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0Bordeaux, France, <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[380] LAFLAMME-MAYER, N., G., BLAQUI\u00c8RE, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Dual-Power Rail, Low-Dropout, Fast-Response Linear Regulator Dedicated to a Wafer-Scale Electronic Systems Prototyping Platform\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0Bordeaux, France, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[379] CHEBLI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAdjustable Input Self-Strobed Delay Line ADC Intended to Implantable Devices\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Buenos-Aires, Argentina, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[378] ZHENG, Y., BEKHICHE, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cPlanar Microcoils Array Applied to Magnetic Beads Based Lab-on-chip for high throughput applications\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Buenos-Aires, Argentina, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[377] MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA New Fully Integrated Dielectrophoretic CMOS Processing Unit for Lab-on-Chip Applications\u201d, <strong><em><b><i>IEEE-ISCAS, <\/i><\/b><\/em><\/strong>Buenos-Aires, Argentina, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[376] MILED, A., GAGN\u00c9, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDielectrophoretic Manipulation: Modeling and Integration of Microsystems based Lab-on-chip\u201d, <strong><em><b><i>Invited at the IEEE-IMS3TW<\/i><\/b><\/em><\/strong>, San Diego, USA, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[375] GAGNE-TURCOTTE, A., MILED, A.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Improved Multiphysics Modelling Approach for Dielectrophoresis-Based Cell Separation\u201d, <strong><em><b><i>IEEE-CCECE<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Niagara-Falls, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[374] MORADI, A.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA New FSK-Based Transmitter Dedicated for Low-Power Wireless Medical Transceivers\u201d, <strong><em><b><i>IEEE-CCECE<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Niagara-Falls, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[373] TARIQUS-SALAM, M., NGUYEN, D., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Multichannel Intracerebral EEG Monitoring system For Epilepsy Presurgical Evaluation\u201d, <strong><em><b><i>IEEE-CCECE<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Niagara-Falls, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[372] SEMMAOUI, H.,\u00a0DROLET, J., LAKHSSASSI, MARTINEZ-TRUJILLO, J.C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Energy Detector Applied to Unsupervised Neural Spikes Detection\u201d, <strong><em><b><i>IEEE-EMBS Conf. on Neural Eng.<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Cancun, Mexico, <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[371] LAREAU, E., SIMARD, G., LESAGE, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cFront-end of a Non-Invasive Wireless Real-Time Brain Imaging System Based on Near-Infrared Spectroreflectometry\u201d, <strong><em><b><i>IEEE-ISMICT<\/i><\/b><\/em><\/strong>, Montreux, Switzerland, <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[370] HASANUZAMAN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0RAUT, R., \u201cAn Energy-Efficient and Multiple-Waveform Stimuli Generator for Visual Cortex Microstimulation\u201d, <strong><em><b><i>IFESS, <\/i><\/b><\/em><\/strong>Vienna, Austria, September <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[369] TARIQUS-SALAM, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D., \u201cEpileptic Seizure Onset Detection Prior To Clinical Manifestation\u201d, <strong><em><b><i>IEEE \u2013 EMBC<\/i><\/b><\/em><\/strong>, Buenos Aires, Argentina, August-September <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[368] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MILED, M. A.,\u00a0GHAFAR-ZADEH, E., \u201cCMOS\/Microfluidic Lab-on-chip For Cells-Based Diagnostic Tools\u201d, <strong><em><b><i>Invited paper at the IEEE-EMBC,<\/i><\/b><\/em><\/strong>\u00a0Buenos Aires, Argentina, August-September <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[367] MILED, M. A.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA New CMOS\/Microfluidic Interface for Cells Manipulation and Separation in LoC Devices\u201d, <strong><em><b><i>IEEE-<\/i><\/b><\/em><\/strong><strong><b>ASQED<\/b><\/strong>, Kuala Lumpur, <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[366] TANGUAY, L.F.,<em><i>\u00a0<\/i><\/em><strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cA 640 uW Frequency Synthesizer Dedicated to Implantable Medical Microsystems in 90-nm CMOS\u201d, <strong><em><b><i>Invited, IEEE-NEWCAS,<\/i><\/b><\/em><\/strong>\u00a0Montreal, June <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[365] MILED, M. A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MOUFAWAD-EL-ACHKAR,\u00a0C., \u201cLow-Voltage Dielectrophoretic Platform for Lab-on-Chip Biosensing Applications\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0Montreal, June<strong><b>\u00a02010<\/b><\/strong>.\n\n<br \/><br \/>[364] FEREYDOUNI-FOROUZANDEH, F., AIT-MOHAMED, O., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cWireless Delay Calculation &amp; Error Compensation in Synchronization for TBCD-TDM Communication Protocol in Wireless Body Sensor Networks\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Montreal, June <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[363] LAFLAMME-MAYER, N., VALORGE, O., BLAQUI\u00c8RE, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Low-Power, Small-Area Voltage Reference Array for a Wafer-Scale Prototyping Platform\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Montreal, June <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[362] ETHIER, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0M., EL-GAMAL, M. \u201cA Novel Energy-Efficient Stimuli Generator for Very-High Impedance Intracortical Microstimulation\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Paris, France, May <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[361] AL-TERKAWI-HASIB, O., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cFully Integrated Ultra-Low-Power Asynchronously Driven Step-Down DC-DC Converter\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Paris, France, May <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[360] SAFI-HARB, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MIRABBASI, S., \u201cSuper-Regeneration-Inspired Time-Based Testing of LC-Tank Oscillators\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Paris, France, May<strong><b>\u00a02010<\/b><\/strong>.\n\n<br \/><br \/>[359] MOUNAIM, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh-voltage DC\/DC converter for high-efficiency power recovery in implantable devices\u201d, <strong><em><b><i>Invited paper, IEEE-Int\u2019l Conf. on Microelectronics, <\/i><\/b><\/em><\/strong>Marrakesh, December <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[358] HASHEMI, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cA Low-Area Power-Efficient CMOS Active Rectifier for Wirelessly Powered Medical Devices\u201d, 16th<strong><em><b><i>\u00a0IEEE International Conference on Electronics, Circuits and Systems<\/i><\/b><\/em><\/strong>, Tunisia, December <strong><b>2009<\/b><\/strong>, pp. 635-638.\n\n<br \/><br \/>[357] TARIQUS-SALAM, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D., HAMOUI, A., \u201cEpileptic Low-Voltage Fast-Activity Seizure-Onset Detector\u201d, <strong><em><b><i>Invited paper at the IEEE-Int\u2019l Biomedical Circuits and Systems (BioCAS), <\/i><\/b><\/em><\/strong>Beijing, China, November <strong><b>2009<\/b><\/strong>, pp. 169-172.\n\n<br \/><br \/>[356] FEREYDOUNI FOROUZANDEH, F.,<sup>\u00a0<\/sup>AIT MOHAMED, O., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0AWWAD, F. \u201cTBCD-TDM: Novel Ultra-Low Energy Protocol for Implantable Wireless Body Sensor Networks\u201d, <strong><em><b><i>IEEE-Globe Com<\/i><\/b><\/em><\/strong>, Hawaii, November 30 &#8211; December 4, <strong><b>2009<\/b><\/strong>, pp. 1-6.\n\n<br \/><br \/>[355] MOUNAIM, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cIntegrated inductive power and data recovery front-end dedicated to implantable devices\u201d, <strong><em><b><i>IEEE-BioCAS Conference, <\/i><\/b><\/em><\/strong>Beijing, China, November <strong><b>2009<\/b><\/strong>, pp. 229-232.\n\n<br \/><br \/>[354] MAHDAVI, S., NABKI, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0EL-GAMAL, M.N.; \u00abOn the testing of MEMS resonators\u00bb, 4<sup>th<\/sup>\u00a0Int\u2019l Design and Test Workshop (IDT), Riyadh, Saudi Arabia, November <strong><b>2009<\/b><\/strong>, pp. 1-6.\n\n<br \/><br \/>[353] GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cCircuits techniques and microsystems assembly for Intracortical multichannel ENG recording\u201d, <strong><em><b><i>IEEE-Custom Integrated Circuits Conference (CICC), <\/i><\/b><\/em><\/strong>San Jose, USA, September <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[352] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., \u201cMultichannel neurorecording from the cortex: integration and packaging challenges\u201d, <strong><em><b><i>Invited, The Symposium on Integrated Circuits and Systems Design (SBCCI),<\/i><\/b><\/em><\/strong>\u00a0Natal, Brazil, September <strong><b>2009<\/b><\/strong>, pp. 1-4.\n\n<br \/><br \/>[351] ABDOLEE, R., ZHU, W.P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDigital Beam-forming Implementation for Downlink Smart Antenna System\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Cancun, Mexico, August <strong><b>2009<\/b><\/strong>, pp. 615-619.\n\n<br \/><br \/>[350] ETHIER, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0ABOULHAMID, M., EL-GAMAL, M. \u201cA \u00b19 V Fully Integrated CMOS Current Source for High-Impedance Microstimulation\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Cancun, Mexico, August <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[349] WEHBE, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDynamic Pupil Reacting to Incident Light Dedicated to Ocular Implants\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Cancun, Mexico, August <strong><b>2009<\/b><\/strong>, pp. 176-179.\n\n<br \/><br \/>[348] HASHEMI, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cFully-Integrated Low-Voltage High-Efficiency CMOS Rectifier for Wirelessly Powered Devices\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Toulouse, France, July <strong><b>2009<\/b><\/strong>, pp. 48-51.\n\n<br \/><br \/>[347] GOSSELIN, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cEvent-Driven Data and Power Management in High-Density Neural Recording Microsystems\u201d, <strong><em><b><i>Invited paper at IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Toulouse, France, July <strong><b>2009<\/b><\/strong>, pp. 65-68.\n\n<br \/><br \/>[346] AIT YACOUB, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0THIBEAULT, C., \u201cA Neuromimetic Ultra low-power ADC for Bio-Sensing Applications\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Toulouse, France, July <strong><b>2009<\/b><\/strong>, pp. 41-44.\n\n<br \/><br \/>[345] TARIQUS-SALAM, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D., HAMOUI, A., \u201cLow-power CMOS-based epileptic seizure onset detector\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Toulouse, France, July <strong><b>2009<\/b><\/strong>, pp. 52-55.\n\n<br \/><br \/>[344] MILED, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cReconfigurable Dielectrophoretic Device for Neurotransmitters Sensing and Manipulation\u201d, <strong><em><b><i>IEEE Mixed-Signals, Sensors, Systems Test Workshop<\/i><\/b><\/em><\/strong>, Scottsdale, Arizona, USA, June <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[343] SIMARD, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MASSICOTTE, D., \u201cNovel Coils Geometry Intended for Biomedical Implants with Multiple Carrier Inductive Link\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Taipei, Taiwan, May <strong><b>2009<\/b><\/strong>, pp. 537-540.\n\n<br \/><br \/>[342] GOSSELIN, B., ZBRZESKI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0KERHERV\u00c9, E., \u201cLow-Power Linear-Phase Delay Filters for Neural Signal Processing: <em><i>Comparison and Synthesis<\/i><\/em>\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Taipei, Taiwan, May <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[341] TANGUAY, L.F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cA Very-High Output Impedance Current Mirror for Low Voltage Biomedical Analog Circuits\u201d, <strong><em><b><i>Invited paper,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-APCCAS<\/i><\/b><\/em><\/strong>, Macao, China, December <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[340] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0GOSSELIN, B., COULOMBE, J., \u201cLearning from the Primary Visual Cortex to Recover Vision for the Blind by Micro stimulation\u201d, <strong><em><b><i>Invited paper,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-NORCHIP<\/i><\/b><\/em><\/strong>, Tallinn, Estonia, Nov. <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[339] MOUNAIM, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0EL-GAMAL, M., \u201cFully-integrated inductive power recovery front-end dedicated to implantable devices\u201d, <strong><em><b><i>IEEE-BioCAS<\/i><\/b><\/em><\/strong>, Baltimore, USA, November<strong><b>\u00a02008<\/b><\/strong>, pp. 105-108.\n\n<br \/><br \/>[338] GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAdaptive Detection of Action Potentials Using Ultra Low-Power CMOS Circuits\u201d, <strong><em><b><i>IEEE-BioCAS<\/i><\/b><\/em><\/strong>, Baltimore, USA November <strong><b>2008<\/b><\/strong>, pp. 209-212.\n\n<br \/><br \/>[337] RHOU, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cReal-time filtering technique to remove ECG interference from recorded esophageal EMG\u201d, <strong><em><b><i>IEEE-BioCAS<\/i><\/b><\/em><\/strong>, Baltimore, November<strong><b>\u00a02008<\/b><\/strong>, pp. 21-24.\n\n<br \/><br \/>[336] TANGUAY, L.F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cProcess Variation Tolerant LC-VCO Dedicated to Ultra-Low Power Biomedical RF Circuits\u201d, <strong><em><b><i>Invited paper,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IEEE-ICSICT<\/i><\/b><\/em><\/strong>, Beijing, China, <strong><b>2008<\/b><\/strong>, pp. 1585-1588.\n\n<br \/><br \/>[335] MOUNAIM, F., ELZAYAT, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0CORCOS, J., ELHILALI, M.M., \u201cNew sacral neuro stimulation strategy to enhance micturition in paraplegics\u201d, <strong><em><b><i>IFESS<\/i><\/b><\/em><\/strong>, Germany, September<strong><b>\u00a02008<\/b><\/strong>, pp. 22-24.\n\n<br \/><br \/>[334] NEMR, A., CARDINAL, C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cVery High Throughput Iterative Threshold Decoder for Convolutional Self-Doubly Orthogonal Codes\u201d, <strong><em><b><i>3<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0place Best student paper<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0<strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Montreal,\u00a0June\u00a0<strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[333] AWWAD, F., NEKILI, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cPerformance Metrics Study for Repeater-Insertion Strategies\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Montreal,\u00a0June\u00a0<strong><b>2008<\/b><\/strong>, pp.359-362.\n\n<br \/><br 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On-Chip Capacitive Sensor\u201d, <strong><em><b><i>IEEE-IMS3TW<\/i><\/b><\/em><\/strong>, Vancouver, June <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[329] GHAFAR-ZADEH, E., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cToward Fully Integrated CMOS based Capacitive Sensor Lab-on-Chip\u201d, <strong><em><b><i>IEEE Medical Measurement and Applications (MEMEA)<\/i><\/b><\/em><\/strong>, Ottawa, May <strong><b>2008<\/b><\/strong>, pp. 77-80.\n\n<br \/><br \/>[328] LEVESQUE, P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNew digital quadrature demodulator for real-time hand-held ultrasound medical imaging device\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seattle, USA,\u00a0May<strong><b>\u00a02008<\/b><\/strong>, pp.\u00a02949-2952.\n\n<br \/><br \/>[327] GOSSELIN, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Ultra Low-Power CMOS Action Potential Detector\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Seattle, USA,\u00a0May 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<strong><b>SAWAN, M.<\/b><\/strong>, \u201cNeural stimulation safety and energy efficiency: Waveform analysis and validation \u201c, <strong><em><b><i>IFESS<\/i><\/b><\/em><\/strong>, Japan, September <strong><b>2006<\/b><\/strong>, pp. 94-97.\n\n<br \/><br \/>[288] GOSSELIN, B., FANIEL, L., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cA wearable high throughput wireless data transmitter for medical monitoring applications\u201d, <strong><em><b><i>IFESS<\/i><\/b><\/em><\/strong>, Japan, September <strong><b>2006<\/b><\/strong>, pp. 222-224.\n\n<br \/><br \/>[287] GOSSELIN, B., ROBERT, P.Y., L., <strong><b>SAWAN, M<\/b><\/strong>., \u201cA Scalable Design for Signal Conditioning and Digitization in Implantable Multi-Channel Neural Sensors\u201d, <strong><em><b><i>IEEE-CAMPS,<\/i><\/b><\/em><\/strong>\u00a0Montreal, Aug. <strong><b>2006<\/b><\/strong>, pp. 73-74.\n\n<br \/><br \/>[286] CHEBLI, R., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cHigh-Voltage CMOS\/DMOS Interface Dedicated for 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Gain 5 GHz Cascade Low Noise Amplifier\u00bb, Regular Session 1: \u00a0<strong><em><b><i>International IEEE-NEWCAS Conference<\/i><\/b><\/em><\/strong>, Montreal, June 20-23, <strong><b>2004<\/b><\/strong>, pp. 353-356.\n\n<br \/><br \/>[209] HASHEMI, S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0SAVARIA Y., \u201cCharacterization of Stress Induced Defects in Deep Sub-Micron MOSFETs\u201d, <strong><em><b><i>International IEEE-NEWCAS Conference<\/i><\/b><\/em><\/strong>, Montreal, June 20-23, <strong><b>2004<\/b><\/strong>, pp. 329-332.\n\n<br \/><br \/>[208] HUANG, Z., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cRobust Design of a Dynamically Controlled Low-Power Level-up Shifter Operating up to 300V\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Montreal, June 20-23, <strong><b>2004<\/b><\/strong>, pp. 321-324.\n\n<br \/><br \/>[207] GOSSELIN, B., SIMARD, V., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cLow-Power Implantable Microsystem Intended to Multichannel Cortical Recording\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Vancouver, May 23-26, <strong><b>2004<\/b><\/strong>, vol. 4, pp. 5-8.\n\n<br \/><br \/>[206] EL-SANKARY, K.,<strong><b>\u00a0SAWAN M.,<\/b><\/strong>\u00a0\u201cA New Digital Background Calibration Technique for Pipelined ADC\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Vancouver, May 23-26,<strong><b>\u00a02004<\/b><\/strong>, vol. 1, pp. 5-8.\n\n<br \/><br \/>[205] DJEMOUAI, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cNew CMOS Current-Mode ASK Demodulator Dedicated for Implantable Electronic Devices\u201d, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, Vancouver, May 23-26, <strong><b>2004<\/b><\/strong>, vol.1, pp. 441-444.\n\n<br \/><br \/>[204] GOSSELIN, B., SIMARD, V., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cAn Ultra Low-Power Chopper Stabilized Front-End for Multichannel Cortical Signals Recording\u201d, 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pp. 164-167.\n\n<br \/><br \/>[200] DJEBBI, M., ASSI, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cHigh-Frequency Offset-Compensated CMOS Current-Feedback Operational Amplifier\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Caire, Egypt, December 27-30, <strong><b>2003<\/b><\/strong>, Vol. 1 pp. 193-196.\n\n<br \/><br \/>[199] MOKHTARI, E., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cCMOS High-Resolution All-Digital Phase-Locked Loop\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Caire, Egypt, December 27-30, <strong><b>2003<\/b><\/strong>, vol. 1 pp. 221-224.\n\n<br \/><br \/>[198] MARSOLAIS, A., EL-GAMAL, M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA CMOS Frequency Synthesizer Covering the Lower and Upper Bands of 5GHz WLANs\u201d, <strong><em><b><i>IEEE-MWSCAS<\/i><\/b><\/em><\/strong>, Cairo, Egypt, December 27-30,<strong><b>\u00a02003<\/b><\/strong>.\n\n<br \/><br \/>[197] HU, Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0EL-GAMAL, M., \u201cA Power Recovery Strategy Dedicated to Implantable Applications\u201d, <strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Sharjah, United Arab Emirates, December 14-17, <strong><b>2003<\/b><\/strong>, vol. 3 pp. 1212-1215.\n\n<br \/><br \/>[196] ACHIGUI, H.F., FAYOMI, C.J.-B., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA DTMOS-Based 1 V OPAMP\u201d, <strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Sharjah, United Arab Emirates, December 14-17, <strong><b>2003<\/b><\/strong>, vol. 1 pp. 252-255.\n\n<br \/><br \/>[195] HARB, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA SC Rectification and BIN-Integration Circuits for Nerve Signal Processing: Experimental Results\u201d, <strong><em><b><i>IEEE-ICECS<\/i><\/b><\/em><\/strong>, Sharjah, United Arab Emirates, December 14-17,<strong><b>\u00a02003<\/b><\/strong>.\n\n<br \/><br \/>[194] KASSEM, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cEfficient Pipelined Architecture of an Ultrasonic Digital 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Conf. on Microelectronics<\/em><\/strong>, Istanboul, Turquie, September <strong><b>1994<\/b><\/strong>, pp. 77-80.\n\n<br \/><br \/>[34] ST-AMAND, R., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cDesign Optimization of a Current Source for Microstimulator Applications\u201d, <strong><em>37<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0Midwest Symposium on CAS<\/em><\/strong>, Louisiane, USA, August <strong><b>1994<\/b><\/strong>, Vol. 1, pp. 129-132.\n\n<br \/><br \/>[33] ARABI, K., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cDesign of a Multichannel Implantable Neuromuscular Prosthesis\u201d, <strong><em>Eng. 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Conference on Microelectronics<\/em><\/strong>, Dhahran, Arabie Saoudite, December <strong><b>1993<\/b><\/strong>, pp. 90-93.\n\n<br \/><br \/>[27] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cMicroelectronics and Biomedical Instrumentation\u201d, <strong><em><b><i>IEEE<\/i><\/b><\/em><\/strong><strong><em>-Int. Conference on Microelectronics<\/em><\/strong>, Dhahran, Arabie Saoudite, December <strong><b>1993<\/b><\/strong>, pp. 325-328.\n\n<br \/><br \/>[26] BELABBES, N.-E., KAMINSKA, B., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cThe Use of Sensitivity Analysis in Analog Circuits Synthesis\u201d, <strong><em>CCVLSI<\/em><\/strong>, Calgary, Canada, November <strong><b>1993<\/b><\/strong>, pp. 4A-13-4A-18.\n\n<br \/><br \/>[25] HU, Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0BOIS, G., \u201cSCSYN: \u00a0A New Environment for the Synthesis of Switched-Capacitor Filters\u201d, <strong><em>CCVLSI<\/em><\/strong>, Calgary, Canada, November <strong><b>1993<\/b><\/strong>, pp. 1B-13-1B-18.\n\n<br \/><br \/>[24] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0HASSOUNA, N., LI, J.S., DUVAL, F., ELHILALI, M.M., \u201cNeural Multichannel Electrical Stimulation for Total Bladder Evacuation\u201d, <strong><em>IEEE-EMBS<\/em><\/strong>, <strong><em>15<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0Int. Conf.<\/em><\/strong>, San Diego, USA, October <strong><b>1993<\/b><\/strong>, pp. 1259-1260.\n\n<br \/><br \/>[23] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0HASSOUNA, N., LI, J.S., DUVAL, F., ELHILALI, M.M., \u201cA Multichannel Implant for Total Bladder Evacuation\u201d, <strong><em>Ljubljana FES Conference<\/em><\/strong>, Ljubljana, Slovenia, August <strong><b>1993<\/b><\/strong>, pp. 53-56.\n\n<br \/><br \/>[22] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., \u201cA Transcutaneous Implantable Bladder Controller\u201d, <strong><em>IEEE-EMBS, 14<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0Int. Conf.<\/em><\/strong>, Paris, France, November <strong><b>1992<\/b><\/strong>, pp. 1506-1507.\n\n<br \/><br \/>[21] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., LI, J.S., HASSOUNA M., ELHILALI, M.M., \u201cAn Implantable Bladder Micro stimulator: Preliminary results in dogs\u201d, <strong><em>4th Vienna Int. Workshop on FES<\/em><\/strong>, Vienne, Austria, September <strong><b>1992<\/b><\/strong>, pp. 172-175.\n\n<br \/><br \/>[20] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., \u201cA New Bladder Stimulator: Hand-Held Controller and Miniaturized\u2026\u201d, <strong><em>Association Advancement of Medical Instr.<\/em><\/strong>, Anaheim, <strong><b>1992<\/b><\/strong>, p. 76.\n\n<br \/><br \/>[19] POURMEHDI, S., MOUINE, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0LAJOIE, J., DUVAL, F., \u201cSpeech Coding Based on Vector Quantization for a Tactile Vocoder hearing device\u201d, <strong><em>12th IEEE-EMBS Int. Conference<\/em><\/strong>, Philadelphie, USA, November <strong><b>1990<\/b><\/strong>, pp. 1230-1231.\n\n<br \/><br \/>[18] MOUINE, J., POURMEHDI, S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cA Computerized System for Communication Data to Implantable and Programmable Neurostimulators\u201d, <strong><em>IEEE-CCECE<\/em><\/strong>, Ottawa, Canada, <strong><b>1990<\/b><\/strong>, pp. 75.2.1-75.2.4.\n\n<br \/><br \/>[17] POURMEHDI, S., MOUINE, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cCodage de la parole bas\u00e9 sur la quantification vectorielle pour une proth\u00e8se tactile\u201d, <strong><em>IEEE-CCECE<\/em><\/strong>, Ottawa, Canada, September <strong><b>1990<\/b><\/strong>, pp. 5.4.1 &#8211; 5.4.3.\n\n<br \/><br \/>[16] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., HASSOUNA, M., MOUINE, J., POURMEHDI, S., ELHILALI, M.M., \u201cA Transcutaneous Bladder Dysfunctions Controller\u201d, <strong><em>IASTED-ICCM<\/em><\/strong>, Teheran, Iran, July <strong><b>1990<\/b><\/strong>, pp.364-367.\n\n<br \/><br \/>[15] LACHANCE, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0POURMEHDI, S., DUVAL, F., \u201cA Computerized Remote Control for an Implanted Urinary Prosthesis\u201d, <strong><em>IEEE-CBMS<\/em><\/strong>, Chapel Hill, North Carolina, USA, June <strong><b>1990<\/b><\/strong>, pp. 112-116.\n\n<br \/><br \/>[14] POURMEHDI, S., MOUINE, J.,<strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cMicrocomputer-Based Tactile Hearing Prosthesis\u201d, <strong><em>IEEE-CBMS<\/em><\/strong>, Chapel Hill, North Carolina, USA, June <strong><b>1990<\/b><\/strong>, pp. 117-122.\n\n<br \/><br \/>[13] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., POURMEHDI, S., MOUINE, J., \u201cA New Multichannel Bladder Stimulator\u201d, <strong><em>IEEE-CBMS<\/em><\/strong>, Chapel Hill, North Carolina, USA, June 1990, pp. 190-196.\n\n<br \/><br \/>[12] POURMEHDI, S., MOUINE, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cA Portable Real-Time Digital Speech Processor for a Ten Channels\u201d, <strong><em>IEEE Indus. Automation Conf. &amp; Exhibition<\/em><\/strong>, Toronto, <strong><b>1990<\/b><\/strong>, pp. 11.30-33.\n\n<br \/><br \/>[11] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0MOUINE, J., POURMEHDI, S., HASSOUNA, M., DUVAL, F., ELHILALI, M.M., \u201cA New Transcutaneous Fully Programmable Neural Stimulator\u201d, <strong><em>ISMM MICRO<\/em><\/strong>, Montr\u00e9al, Canada, May <strong><b>1990<\/b><\/strong>, pp. 45-48.\n\n<br \/><br \/>[10] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0HASSOUNA, M., DUVAL, F., ELHILALI, M.M., MOUINE, J., et al., \u201cA New Prosthetic Device for Fully Bladder Control\u201d, <strong><em>IEEE EMBS, 11th Int. <\/em><\/strong><strong><em>Conf.<\/em><\/strong>, Seattle, USA, November <strong><b>1989<\/b><\/strong>, Vol. 5, pp. 1708-1709.\n\n<br \/><br \/>[9] MOUINE, J., TALBOT, M.A., DUVAL, F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0POURMEHDI, S., LACHANCE, J., LECLAIR, M., GENEST, M., \u201cUn nouveau neurostimulateur \u00e0 \u00e9lectrodes multiples A New 16 Channel Cochlear Implant\u201d, <strong><em>IEEE-CCGEI<\/em><\/strong>, Montr\u00e9al, Canada, September <strong><b>1989<\/b><\/strong>, pp. 885-888.\n\n<br \/><br \/>[8] POURMEHDI, S., DUVAL, F., MABILLEAU, P., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0MOUINE, J., et al. \u201cUn syst\u00e8me d&#8217;analyse en temps r\u00e9el du signal de la parole pour une proth\u00e8se auditive\u201d, <strong><em>IEEE-Canadian CECE<\/em><\/strong>, Montr\u00e9al, Canada, Septembre <strong><b>1989<\/b><\/strong>, pp. 889-892.\n\n<br \/><br \/>[7] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0POURMEHDI, S., MOUINE, J., LACHANCE, J., LECLAIR, M., et al. \u201cCommande transcutan\u00e9e par ordinateur d&#8217;un implant urologique multicanaux\u201d, <strong><em>IEEE-Canadian CECE,<\/em><\/strong>\u00a0Montr\u00e9al, Canada, September <strong><b>1989<\/b><\/strong>, pp. 1015-1017.\n\n<br \/><br \/>[6] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUVAL, F., MAILHOT, F., HASSOUNA, M., ELHILALI, M.M., \u201cA New Multichannel Urinary Stimulator\u201d, <strong><em>IMAC in Patient Care, <\/em><\/strong>Washington, USA, September <strong><b>1989<\/b><\/strong>.\n\n<br \/><br \/>[5] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0ABTAHI, R., DUVAL, F., MAILHOT, F., \u201cA Programmable Neural Stimulation Signal Generator\u201d, <strong><em>CCVLSI 88<\/em><\/strong>, Halifax, Canada, October <strong><b>1988<\/b><\/strong>, pp. 238-245.\n\n<br \/><br \/>[4] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0CHAMPOUX, Y., NICOLAS, J., \u201cConception d&#8217;un syst\u00e8me de traitement num\u00e9rique des signaux sonores transitoires de longue dur\u00e9e et de haut niveau\u201d, <strong><em>12<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s Int. d&#8217;acoustique<\/em><\/strong>, Toronto, Canada, <strong><b>1986<\/b><\/strong>.\n\n<br \/><br \/>[3] H\u00c9TU, R., LAROCHE, C., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0NICOLAS, J., \u201cThe Development of a Computerized Noise Generator for the Study of the Effects of Impulse \u2026\u201d, <strong><em>110<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0Acoustical Society of America Meeting<\/em><\/strong>, Tennessee, <strong><b>1985<\/b><\/strong>.\n\n<br \/><br \/>[2] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0LEMIRE, G., NICOLAS, J., \u201cComputerized Generation of Controlled Impulsive Noise\u201d, <strong><em>Noise-Con.<\/em><\/strong>, Ohio, USA, June <strong><b>1985<\/b><\/strong>, pp. 107-112.\n\n<br \/><br \/>[1] <strong><b>SAWAN M.,<\/b><\/strong>\u00a0NICOLAS, J., LEMIRE, G., \u201cContr\u00f4le num\u00e9rique des signaux impulsifs \u00e9mis par un haut-parleur\u201d, <strong><em>Canadian Acoustics Association Meeting<\/em><\/strong>, Qu\u00e9bec, Canada, October <strong><b>1984<\/b><\/strong>.\n<h3>C.\u00a0Plenaries, Keynotes, Invited Seminar and Tutorials<\/h3>\n<br \/><br \/>[337] \u201cSmart Medical Devices to Manage Neurodegenerative Diseases\u201d, Keynote, <strong><b>Yiwu<\/b><\/strong>, 25 Apr. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[336] \u201cIntelligent Healthcare Devices to Diagnose, Treat and Predict Brain Diseases\u201d, Keynote, <strong><b>Xi\u2019an<\/b><\/strong>, 18 Apr. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[335] \u201cIntelligent Healthcare Devices to Diagnose and Treat Brain Diseases\u201d, Keynote, <strong><b>Zhongshan<\/b><\/strong>, 29 Mar. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[334] \u201cClosed-loop AI-based neuromodulation for the diagnosis and treatment of brain disorders\u201d, Keynote, <strong><b>Porto Alegre<\/b><\/strong>,<em><i>\u00a0<\/i><\/em>Brazil, Virtual, 17 Mar. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[333] \u201cIntelligent healthcare devices to diagnose and treat brain diseases\u201d, Keynote, Hangzhou International Health Innovation Forum,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Hangzhou<\/b><\/strong>, 03 Mar. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[332] \u201cOpening talk at the Future Healthcare Summit, MIT Technology Review China\u201d, Invited talk,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Hangzhou<\/b><\/strong>, China, 17 Feb. <strong><b>2023<\/b><\/strong>.\n\n<br \/><br \/>[331] \u201cClosed-Loop Systems for the Monitoring and Treatment of Neurodegenerative Disorders\u201d, Keynote,<strong><em><b><i>\u00a0ICCA<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Cairo<\/b><\/strong>, Egypt, 20 Dec. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[330] \u201cOpening talk at the Chinese Biopharmaceutical and Medical Device Innovation International Summit\u201d, Keynote,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Danyang<\/b><\/strong>, China, 16 Dec. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[329] \u201cBiosensors to Screen Neural Activities Belonging to Brain Disorders\u201d, Keynote,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>IC Optic, Electronics, and optoelectronics<\/i><\/b><\/em><\/strong><strong><em><b><i>, <\/i><\/b><\/em><\/strong>Virtual,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Xiamen<\/b><\/strong>, China, 03 Dec. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[328] \u201cOpening talk at the Hangzhou International Talent Conference\u201d, Keynote,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Hangzhou<\/b><\/strong>, China, 12 Nov. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[327] \u201cWearable and Implantable Medical Devices to Manage\u00a0Neurodegenerative Diseases\u201d, Keynote,<strong><em><b><i>\u00a0STIPM Conference,<\/i><\/b><\/em><\/strong>\u00a0Virtual,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Luoyang<\/b><\/strong>, China, 28 Oct. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[326] \u201cOpening talk at The Medical University and Provincial Key Laboratory of Biological Information on Encephalopathy\u201d, Keynote,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Xuzhou<\/b><\/strong>, China, 14 Oct. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[325] \u201cClosed-loop Systems for Efficient Brain-machine Interfaces\u201d, Keynote,<strong><em><b><i>\u00a0BioCAS Workshop,<\/i><\/b><\/em><\/strong>\u00a0Virtual,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Tainan<\/b><\/strong>, China, 12 Oct. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[324] \u201cArtificial Intelligence in\u00a0Healthcare: Neurodegenerative<strong><b>\u00a0<\/b><\/strong>Diseases<strong><b>\u00a0<\/b><\/strong>Case Studies\u201d, Keynote,<strong><em><b><i>\u00a02<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>nd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0China Shaoxing New Industry Platform Workshop<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Zhuji<\/b><\/strong>, 22 Sep. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[323] \u201cClosed-Loop Neuromodulation for the Treatment of Neurodegenerative Diseases\u201d, Keynote,<strong><em><b><i>\u00a0IEEE-CASIF,<\/i><\/b><\/em><\/strong>\u00a0Virtual,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Beirut<\/b><\/strong>, 26 Aug. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[322] \u201cBiosystems for the Diagnosis and Prediction of Brain Diseases\u201d, Keynote,<strong><em><b><i>\u00a0School of Instrument Science and Engineering, Southeast University,<\/i><\/b><\/em><\/strong>\u00a0Virtual,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Nanjing<\/b><\/strong>, 19 May <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[321] \u201cIntelligent Biosensors for the Diagnosis and Subsequent Treatment of Brain Diseases\u201d, Keynote,\u00a0<strong><em><b><i>The 6<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0International Conference on Biomedical Engineering and Applications (ICBEA)<\/i><\/b><\/em><\/strong>,\u00a0Virtual, <strong><b>Hangzhou<\/b><\/strong>, 15 May <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[320] \u201cSmart Medical Devices: Wearable and Implantable Sensors and Actuators\u201d, Invited Seminar,\u00a0<strong><em><b><i>2022 <\/i><\/b><\/em><\/strong><strong><em><b><i>Yunqi Westlake Investment Conference<\/i><\/b><\/em><\/strong>, Virtual, <strong><b>Hangzhou<\/b><\/strong>, 13 May <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[319] \u201cClosed-Loop Neuromodulation Systems for the Treatment of Neurodegenerative Disorders\u201d, Keynote,\u00a0<strong><em><b><i>The International Conference on ElectronicsTechnology (ICET)<\/i><\/b><\/em><\/strong>,\u00a0Virtual, <strong><b>Chengdu<\/b><\/strong>, 13 May <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[318] \u201cBioelectronics to Diagnose\u00a0and Treat Neurodegenerative Diseases\u201d, Keynote,\u00a0<strong><em><b><i>The <\/i><\/b><\/em><\/strong><strong><em><b><i>2021-2022 <\/i><\/b><\/em><\/strong><strong><em><b><i>China Biomedical Conference &amp; Medical Innovation Summit<\/i><\/b><\/em><\/strong>,\u00a0Virtual, <strong><b>Shenzhen<\/b><\/strong>, 10 Apr. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[317] \u201cGrant Proposal Writing Tips and Strategies: Securing Funds for your Brilliant Research Idea\u201d, Panel,\u00a0<strong><em><b><i>IEEE Solid-State Society<\/i><\/b><\/em><\/strong>,\u00a0Virtual, SF, USA, 8 Apr. <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[316] \u201cPromote scientific and technological innovation with a global perspective\u201d, Keynote,\u00a0<strong><em><b><i>The <\/i><\/b><\/em><\/strong><strong><em><b><i>23<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Guangzhou Convention of Overseas Chinese Scholars (OCS)<\/i><\/b><\/em><\/strong>,\u00a0Virtual, <strong><b>Shenzhen<\/b><\/strong>, 17 Dec. <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[315] \u201cBioelectronics for the Diagnosis and Subsequent Treatment of Neurodegerative Diseases\u201d, Invited seminar,\u00a0<strong><em><b><i>The Hong Kong University of Science and Technology (HKUST<\/i><\/b><\/em><\/strong><strong><em><b><i>)<\/i><\/b><\/em><\/strong>, Virtual, <strong><b>Hong Kong<\/b><\/strong>, 17 Dec. <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[314] \u201cBrain-biochip Interfaces for the Diagnosis and Recovery of neural functions\u201d, Keynote,\u00a0<strong><em><b><i>The 4th International Conference Electronics and Electrical Engineering Technology<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>(<\/i><\/b><\/em><\/strong><strong><em><b><i>EEET)<\/i><\/b><\/em><\/strong>, Virtual, <strong><b>Nanjing<\/b><\/strong>, China, 4 Dec. <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[313] \u201cWearable and Implantable Bioelectronics to Enhance and Recover Vital Functions\u201d, Keynote,\u00a0<strong><em><b><i>The <\/i><\/b><\/em><\/strong><strong><em><b><i>2021 World Intelligent Manufacturing Conference:<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>Advanced Medical Devices and Intelligent Manufacturing<\/i><\/b><\/em><\/strong>, <strong><b>Nanjing<\/b><\/strong>, China, 9 Dec. <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[312] \u201cBiosensors for Vital Functions Recovery and Coronavirus Early Detection\u201d, Keynote, <strong><em><b><i>The International Immunology Medicine and Healthcare Summit (IMHS)<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, China, November <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[311] \u201cBiosensors to Study, Treat and Predict Brain Disorders\u201d, Keynote, <strong><em><b><i>ICCS\u201921 \/ ICITES\u201921,<\/i><\/b><\/em><\/strong>\u00a0Virtual, <strong><b>Chengdu<\/b><\/strong>, China, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[310] \u201cNovel Covid-19 Detection Technique: Fast and accurate Method\u201d, Invited Seminar, <strong><em><b><i>IEEE SSIT &#8211; ISTAS21,<\/i><\/b><\/em><\/strong>\u00a0Virtual, <strong><b>Waterloo<\/b><\/strong>, Canada, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[309] \u201cImportance on fundamental sciences and mutidisciplinarity\u201d,\u00a0Invited Panel, <strong><em><b><i>The 3rd World Science and Technology Development Forum<\/i><\/b><\/em><\/strong>, <strong><b>Beijing<\/b><\/strong>, November <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[308] \u201cBiosensors for the Detection of Diseases and Prediction of their Evolutions; Cells and Virus\u201d, Keynote<strong><em><b><i>, IEEE-ICABME, <\/i><\/b><\/em><\/strong>Virtual, <strong><b>Beirut<\/b><\/strong>, Lebanon, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[307] \u201cScientific and Engineering Innovation in the Fields of Smart Medical Devices and Talent Cooperation\u201d, Keynote<strong><em><b><i>, <\/i><\/b><\/em><\/strong><strong><em><b><i>International Technology Exchange Conferences<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Yantai<\/b><\/strong>, China, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[306] \u201cBiosensors for Better Healthcare: Wearable, Portable and Implantable Devices\u201d, Keynote<strong><em><b><i>, <\/i><\/b><\/em><\/strong><strong><em><b><i>The 4th Int\u2019l Conference on Image, Video Processing and AI<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Shanghai<\/b><\/strong>, China, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[305] \u201cWearable and Implantable Bioelectronic Devices to Diagnosis and Treat Vital Functions\u201d, Keynote<strong><em><b><i>, The 2nd<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0International Conference on Sensing, Measurement &amp; Data Analytics in the era of Artificial Intelligence<\/i><\/b><\/em><\/strong>, <strong><b>Nanjing<\/b><\/strong>, China, October <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[304] \u201cBrain-microsystem Interfaces to Diagnose and Recover Vital Functions\u201d, Keynote<strong><em><b><i>, Life Science Research Institute, Suzhou City University<\/i><\/b><\/em><\/strong>, <strong><b>Suzhou<\/b><\/strong>, China, September <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[303] \u201cAre sciences &amp; technologies becoming enough powerful to mimic the brain\u201d, Invited Seminar,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>Scientific Perspectives of the World, <\/i><\/b><\/em><\/strong>Westlake University, <strong><b>Hangzhou<\/b><\/strong>, China, September\u00a0<strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[302] \u00a0\u201cBiosensors to Improve Quality of Life: Neurodegeneration and Coronavirus\u201d, Keynote, <strong><em><b><i>The sixth International Biological Immunization Applications Summit Forum<\/i><\/b><\/em><\/strong>, <strong><b>Shenzhen<\/b><\/strong>, China, September <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[301] \u00a0\u201cReliability and Security of Smart Implantable Medical Devices\u201d, Keynote, <strong><em><b><i>The 4<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0China Quality Conference<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, China, September <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[300] \u00a0\u201cBrain-microsystem interfaces to recover vital functions\u201d, Keynote, <strong><em><b><i>The School of Micro-Nano Elecronics of Zhejiang University<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, China, July <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[299] \u00a0\u201cMicrosystems for Discovery and Recovery of Brain Functions\u201d, Invited Seminar, <strong><em><b><i>Dalian Maritime University<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em><strong><b>Dalian<\/b><\/strong>, June <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[298] \u00a0\u201cToward Smart Microsystems for Effective Recovery of Brain Functions\u201d, Keynote, <strong><em><b><i>ICFEICT<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em><strong><b>Changsha<\/b><\/strong>, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[297] \u201cSelecting a Path for a Successful Academic Career: Does it Require Prediction Work?\u201d, Invited Seminar, <strong><em><b><i>WeSalon<\/i><\/b><\/em><\/strong><strong><em><b><i>\u00a0&#8211; <\/i><\/b><\/em><\/strong><strong><em><b><i>Westlake University<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, May <strong><b>2021.<\/b><\/strong>\n\n<br \/><br \/>[296] \u00a0\u201cIntelligent Microsystems to Predict Neurodegenerative Diseases and Enhance Health Conditions\u201d, Keynote, <strong><em><b><i>ICoIAS<\/i><\/b><\/em><\/strong>, <strong><b>Wuhan<\/b><\/strong>, May <strong><b>2021<\/b><\/strong>\n\n<br \/><br \/>[295] \u00a0\u201cSmart Medical Devices to Predict and Enhance Health Conditions\u201d, Plenary, <strong><em><b><i>IET 150 Anniversary<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, April <strong><b>2021<\/b><\/strong>\n\n<br \/><br \/>[294] \u00a0\u201cOpen Innovation of International Personnel\u201d, Invited Talk, <strong><em><b><i>International Open Innovation Symposium<\/i><\/b><\/em><\/strong>, MOST Annual Meeting, <strong><b>Shenzhen<\/b><\/strong>, 14 April <strong><b>2021<\/b><\/strong>\n\n<br \/><br \/>[293] \u00a0\u201cCells Manipulation and Characterization for the Treatment of Neurodegenerative Diseases\u201d, Keynote, <strong><em><b><i>China Anti-Aging Promotion Association Meeting<\/i><\/b><\/em><\/strong>, <strong><b>Chengdu<\/b><\/strong>, 31 March <strong><b>2021<\/b><\/strong>\n\n<br \/><br \/>[292] \u00a0\u201cCutting Edge Net of Biomedical Research and Innovation (CenBRAIN): Review\u201d, <em><i>Invited<\/i><\/em>\u00a0<em><i>Talk<\/i><\/em><strong><em><b><i>, <\/i><\/b><\/em><\/strong><strong><em><b><i>BME Group of Zhejiang University<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em>\u00a0Westlake University, <strong><b>Hangzhou<\/b><\/strong>, 13 March <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[291] \u00a0\u201cOpen Innovation of International Personnel\u201d, <em><i>Invited<\/i><\/em>\u00a0<em><i>Talk<\/i><\/em>, <em><i>Foreign Experts Innovation Policy Salon, <\/i><\/em><strong><em><b><i>Hall of Science and Technology<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em><strong><b>Beijing<\/b><\/strong>, 19 Dec. <strong><b>2020.<\/b><\/strong>\n\n<br \/><br \/>[290] \u00a0\u201cWill Sciences and Technologies Becoming Enough Powerful to Mimic the Brain?\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em><strong><em><b><i>BEE Talks<\/i><\/b><\/em><\/strong><em><i>, <\/i><\/em><strong><b>Bordeaux Virtual <\/b><\/strong>(https:\/\/www.youtube.com\/watch?v=6HcBoiLPxD8),<strong><b>\u00a0<\/b><\/strong>France, 17 Dec. <strong><b>2020.<\/b><\/strong>\n\n<br \/><br \/>[289] \u201cBioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>ICCS\u201920<\/i><\/b><\/em><\/strong>, <strong><b>Chengdu Virtual<\/b><\/strong>, China, 11 Dec. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[288] \u201cPost-COVID Wearable Virus Detector: A Personalized Generic Approach\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0Nanjing International Healthcare Forum<\/i><\/b><\/em><\/strong>, <strong><b>Nanjing<\/b><\/strong>, China, 10 Dec. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[287] \u201cNeurotechnology to Discover and Recover Vital Functions\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><i>SUSTech University<\/i><\/em><\/strong>, <strong><b>Shenzhen<\/b><\/strong>, China, 04 Dec. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[286] \u201cOpportunities and challenges may China face\u201d, <strong><em><b><i>Lecture<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong>Foreign Experts Seminar, <strong><em><b><i>Talent Research Center, MOST,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Nanjing<\/b><\/strong>, China, 24 Nov. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[285] \u201cEmerging Techniques to Diagnose and Treat Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0EmTech China<\/i><\/b><\/em><\/strong>, <strong><b>Suzhou<\/b><\/strong>, China, 20 Nov. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[284] \u201cBiodevices for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0IEEE-ICOEO\u201920<\/i><\/b><\/em><\/strong>, <strong><b>Chengdu<\/b><\/strong>, China, 04 Nov. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[283] \u201cRF Links to Connect Smart Medical Devices to Remote Hosts: Circuits Techniques and Case Studies\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0AI, Radar Technology, and Industry Development Forum<\/i><\/b><\/em><\/strong>, <strong><b>Wuxi<\/b><\/strong>, China, 30 Oct. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[282] \u201cToward Efficient Brain Microdevices to Recover Neurodegenerative Vital Functions\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><em><b><i>The 4th Global Programmers&#8217; Festival<\/i><\/b><\/em><\/strong>, <strong><b>Xi\u2019an<\/b><\/strong>, China, 24 Oct. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[281] \u201cMachine Learning Techniques to Predict the Evolution of Vital Functions: Case Studies\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0Shanghai Jiao Tong University<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, 16 Oct. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[280] \u201cAre sciences &amp; technologies becoming enough powerful to mimic the brain\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong><strong><em><b><i>Scientific Perspectives of the World, <\/i><\/b><\/em><\/strong>Westlake University, <strong><b>Hangzhou<\/b><\/strong>, China, Sep. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[280] \u201cRecovering Neurodegenerative Functions: Diagnosis, Detection and Prediction\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong><strong><em><b><i>Future Youth ZGC Forum: Digital Transformation of Technology and Industry<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Beijing<\/b><\/strong>, 26 Aug. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[279] \u201cAI to Predict Evolution of Vital Functions: Epileptic Seizures and Bladder Filling Case Studies\u201d, <strong><em><b><i>Keynote, 3<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0IVPAI Conference<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Shanghai<\/i><\/b><\/em><\/strong>, 22 Aug. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[278] \u201cTreatment\u2019s Challenges of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0The 1<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>st<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Arab Science Week (ASW)<\/i><\/b><\/em><\/strong>, <strong><b>Cairo Virtual<\/b><\/strong>, <strong><b>Egypt<\/b><\/strong>, 05 July <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[277] \u201cBiosystems for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>3<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>rd<\/i><\/b><\/sup><\/em><\/strong>\u00a0<strong><em><b><i>NYU Biomedical and Biosystems<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Conference<\/i><\/b><\/em><\/strong>, <strong><b>AbuDhabi<\/b><\/strong>, Jan. <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[276] \u201cHybrid Bioelectronics for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote, IEEE ICM<\/i><\/b><\/em><\/strong>, <strong><b>Cairo<\/b><\/strong>, Egypt, Dec.<strong><b>\u00a02019<\/b><\/strong>.\n\n<br \/><br \/>[275] \u201cAnalog and Mixed-signal Techniques to Face Persistant Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote, 15<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Chinese Electronic Information Deans Forum<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong><strong><b>Hangzhou<\/b><\/strong><strong><b>, <\/b><\/strong>China, Dec. <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[274] \u201cBioengineering Innovations to Address Persistent Brain Disorders\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong><strong><em><b><i>FTChinese<\/i><\/b><\/em><\/strong>, <strong><b>Hangzhou<\/b><\/strong>, China, November <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[273] \u201cImplantable Brain Microdevices for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong><strong><em><b><i>ASICON<\/i><\/b><\/em><\/strong>, <strong><b>Chongqing<\/b><\/strong>, China, October <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[272] \u201cTowards the Prediction of Epileptic Seizures: A multidisciplinary Approach\u201d, <strong><em><b><i>Invited Seminar, NCTU<\/i><\/b><\/em><\/strong>, <strong><b>Taiwan<\/b><\/strong>, October<strong><b>\u00a02019<\/b><\/strong>.\n\n<br \/><br \/>[271] \u201cDetect and Predict Epileptic Seizures: A multidisciplinary Approach\u201d, <strong><em><b><i>Keynote <\/i><\/b><\/em><\/strong><strong><em><b><i>AVIC<\/i><\/b><\/em><\/strong>, <strong><b>Taiwan<\/b><\/strong>, October <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[270] \u201cWearable and Implantable Devices to Locate, Detect and Predict Epileptic Seizures\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong><strong><b>ICABME<\/b><\/strong>, <strong><b>Tripoli<\/b><\/strong>, Lebanon, 18 October <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[269] \u201cToward Intracortical Microsystems for the Recovery of Vision for the Blinds\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong><strong><em><b><i>SINANO, <\/i><\/b><\/em><\/strong><strong><b>Suzhou<\/b><\/strong>, September <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[268] \u201cRecovering Neurodegenerative Functions: Diagnosis, Detection and Prediction\u201d, <strong><em><b><i>Keynote, IVPAI\u201919, <\/i><\/b><\/em><\/strong><strong><b>Shanghai<\/b><\/strong>, August <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[267] \u201cUnderstanding and Treating Neurodegenerative Diseases: A Multidimensional Challenging Approach\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>Zhejiang Univ., BME Dept.,\u00a0<strong><b>Hangzhou<\/b><\/strong>, August <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[266] \u201cEmbedded Circuits and Systems for Emerging Harsh-Environment Applications\u201d, <strong><em><b><i>Invited Seminar, NorthWestern Polytech. Univ (NWPU<\/i><\/b><\/em><\/strong><strong><em><b><i>), <\/i><\/b><\/em><\/strong><strong><b>Xi\u2019An<\/b><\/strong><strong><em><b><i>, <\/i><\/b><\/em><\/strong><strong><em><b><i>Shaanxi<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0August <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[265] \u201cWearable and Implantable Medical Devices for Remote Sensing and Treatment\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong><strong><em><b><i>MIT Technology<\/i><\/b><\/em><\/strong>\u00a0Review, <strong><b>Shanghai<\/b><\/strong>, July <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[264] \u201cEmerging Neurotechnology to Recover Vital Health Functions\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>Westlake University, <strong><b>Hangzhou<\/b><\/strong>, China, July <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[263] \u201cUnderstanding Neurodegenerative Diseases to Recover Vital Functions\u201d, <strong><em><b><i>Invited Seminar, Beihang Univ, <\/i><\/b><\/em><\/strong><strong><b>Beijing<\/b><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0July <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[262] \u201cBiodevices: Achievements and Technology Transfer\u201d, <strong><em><b><i>Keynote,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Hangzhou<\/b><\/strong>, China, June <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[261] \u201cTrends Shaping Opportunities for Neurodegenerative Diseases Treatment\u201d, <strong><em><b><i>Plenary<\/i><\/b><\/em><\/strong><em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>ISCAS<\/i><\/b><\/em><\/strong>, <strong><b>Sapporo<\/b><\/strong><strong><em><b><i>, <\/i><\/b><\/em><\/strong>Japan, May <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[260] \u201cBrain-based Microdevices for the Treatment of Neurodegenerative Diseases\u201d, First\u00a0Int\u2019l Symposium on Urban Brain Technology in China (ISCCBT), <strong><em><b><i>Keynote,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Shanghai<\/b><\/strong><strong><b>, <\/b><\/strong>March <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[259] \u201cEpileptic Seizures: Can Deep Learning Meets Predicting Expectation?\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong>New Trends in<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong>Biosensors and bioelectronics, KAUST, <strong><b>Thuwal<\/b><\/strong>, Saudi Arabia, February <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[258] \u201cCircuit Techniques Intended for Smart Brain-Machine Interfaces\u201d, <strong><em><b><i>Intensive 6-hours Course &#8211; ACTS19, <\/i><\/b><\/em><\/strong>Tsinghua University, <strong><b>Shenzhen<\/b><\/strong>, China, January <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[257] \u201cBrain-microsystem interfaces for the diagnosis and treatment of neurodegenerative diseases\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>The Chinese Academy of Sciences, <strong><b>Hangzhou<\/b><\/strong>, China, Dec. <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[256] \u201cSeizure Localisation and Subsequent Treatment: From Wearable Optode Array to Mandatory Implantable Devices\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>Zhejiang University, <strong><b>Hangzhou<\/b><\/strong>, China, Nov. <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[255] \u201cEpileptic Seizures: Can Deep Learning Meets Predicting Expectation\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>uDSD Research Center, <strong><b>Daegu<\/b><\/strong>, South Korea, Nov <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[254] \u201cToward High-Precision Brain Imaging for Efficient Seizures Localization, Detection, and Abortion\u201d, <strong><em><b><i>Invited Seminar, <\/i><\/b><\/em><\/strong>SJTU, <strong><b>Shanghai<\/b><\/strong>, China, May<strong><b>\u00a02018<\/b><\/strong>.\n\n<br \/><br \/>[253] \u201cInterfaces cerveau-microsyst\u00e8mes sans fil pour la r\u00e9cup\u00e9ration de fonctions neurod\u00e9g\u00e9n\u00e9ratives\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong>ACFAS 2018, <strong><b>Chicoutimi<\/b><\/strong>, Canada, May <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[252] \u201cNeurotechnology Microdevices for Neurodegenerative Diseases: A Multidisciplinary Approach\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>Westlake University, <strong><b>Hangzhou<\/b><\/strong>, China, April <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[251] \u201cLocalising epileptic activities through superparamagnetic nanoparticules\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>RBIQ, <strong><b>Montreal<\/b><\/strong>, March <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[250] \u201cHeterogeneous Microsystems for the Treatment of Brain-originated Diseases\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong>ETBET, <strong><b>Qatar<\/b><\/strong>, February <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[249] \u201cSmart Medical Microdevices for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>School of Automation Science and Electrical Engineering, Beihang University, <strong><b>Beijing<\/b><\/strong>,\u00a0China, Jan. <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[248] \u201cSmart Medical Microdevices for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>Academy of Mathematics and Systems Science, Chinese Academy of Sciences, <strong><b>Beijing<\/b><\/strong>,\u00a0China, Jan. <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[247] \u201cIntracortical Microdevices for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>Wuhan University, <strong><b>Wuhan<\/b><\/strong>, China, Jan. <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[246] \u201cEpileptic Seizures Management: Localization, Onset Detection and Abortion\u201d, <strong><em><b><i>Keynote, <\/i><\/b><\/em><\/strong>FETCH, <strong><b>Saint-Malo<\/b><\/strong>, France, Jan.<strong><b>\u00a02018<\/b><\/strong>.\n\n<br \/><br \/>[245] \u201cCircuits and Systems for the Diagnosis and treatment of Neurodegenerative Diseases: Multidimentional Challenges\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>Guangdong University of Technology, <strong><b>Guangzhou<\/b><\/strong>, China, Nov.<strong><b>\u00a02017<\/b><\/strong>.\n\n<br \/><br \/>[244] \u201cLab-on-Chip Based Biosensors for the Diagnostic of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>SJTU, <strong><b>Shanghai<\/b><\/strong>, China, Oct. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[243] \u201cManagement of the Bladder Functions with Spinal Impairment: Monitoring and Subsequent Neurostimulation\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, IEEE-ICABME, <strong><b>Beirut<\/b><\/strong>, Lebanon, Oct. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[242] \u201cBrain-Microsystem Interfaces for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar, <\/i><\/b><\/em><\/strong>NCTU, <strong><b>Taipei<\/b><\/strong>, Taiwan, Oct. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[242] \u201cNeurodegenerative Diseases: Multidimensional Implementation Challenges\u201d, <strong><em><b><i>Keynote,<\/i><\/b><\/em><\/strong>\u00a0SEMICON, <strong><b>Taipei<\/b><\/strong>, Taiwan, Oct.<strong><b>\u00a02017<\/b><\/strong>.\n\n<br \/><br \/>[241] \u201cAddressing Neurodegenerative Diseases: A Multidisciplinary Approach\u201d, <strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, EEE Dept, NTU, <strong><b>Singapore<\/b><\/strong>, Oct. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[240] \u201cBrain-Microsystem Interfaces for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, MediaTeck, <strong><b>Singapore<\/b><\/strong>, Aug. <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[239] \u201cBrain- Microsystem Interfaces for the Discovery and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, CKC 2017, <strong><b>Montreal<\/b><\/strong>, July <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[238] \u201cAre Brain-microsystems Interfaces Ready for Efficient Diagnosis and Treatment of Neurodegenerative Diseases?\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, IEEE-Canadian Conf. Elec. Comp. Eng., <strong><b>Windsor<\/b><\/strong>, Canada, May<strong><b>\u00a02017<\/b><\/strong>.\n\n<br \/><br \/>[237] \u201cSmart Medical Devices for the Discovery and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, IEEE-European Test Symposium, <strong><b>Limassol<\/b><\/strong>, Cyprus, May <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[236] \u201cSmart Medical Devices: Industrial opportunities and Rewarding Research\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, Microelectronics Industrial Alliance, <strong><b>Montreal<\/b><\/strong>, Canada, March <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[235] \u201cMultichannel Neural Sensing and Microstimulation Devices: Design and Implementation Challenges\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, U-MediaTek Workshop, <strong><b>Singapore<\/b><\/strong>, Jan <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[234] \u201cCircuits, Microsystems and Packaging Techniques Intended for Autonomous Brain-Machine Interfaces\u201d, <strong><em><b><i>Intensive Course<\/i><\/b><\/em><\/strong>, GIAN Program, <strong><b>NewDelhi<\/b><\/strong>, India, Dec <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[233] \u201cSmart Brain-Bioelectronic Interfaces for Understanding and Subsequent Treatment of Numerous Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, JDSI, <strong><b>Casablanca<\/b><\/strong>, Dec <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[232] \u201cToward Brain-Area Networks for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, IMAPS, <strong><b>Lyon<\/b><\/strong>, France, Dec <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[232] \u201cWearable and Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, NCKU, <strong><b>Tainan<\/b><\/strong>, Taiwan, Nov <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[231] \u201cWearable and Implantable Devices for Sensing and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, MicroDSD, Korea, Oct <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[230] \u201cImplantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, Bernstein Sparks Workshop, <strong><b>Delmenhorst<\/b><\/strong>, Germany, Oct <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[229] \u201cToward Multimodal Massively Parallel Multichannel Brain-Sensing Interfaces\u201d, <strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><b>IEEE SMC<\/b><\/strong>, <strong><b>Budapest<\/b><\/strong>, Hungary, Oct <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[228] \u201cLab-on-Chip Based Biosensors for Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-MECBME<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, Oct <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[227] \u201cToward an Implantable Intracortical Microsystem for the Recovery of Vision for the Blind\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>The Eye and the Chip<\/i><\/b><\/em><\/strong>, <strong><b>Detroit<\/b><\/strong>, USA, Sept <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[226] \u201cConnecting Wearable and Implantable Medical Devices to Internet for Remote Sensing and Treatment\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-HealthCom<\/i><\/b><\/em><\/strong>, <strong><b>Munich<\/b><\/strong>, Germany, Sept <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[225] \u201cWearable and Implantable Medical Devices for Diagnostic and Treatment of Neuro-degenerative Diseases\u201d, <strong><em><b><i>Invited<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>\u00a0Mental Health center, China, July<strong><b>\u00a02016<\/b><\/strong>.\n\n<br \/><br \/>[224] \u201cBiosensors and Bioactuators for Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Invited<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, SoME, SJTU, <strong><b>Shanghai<\/b><\/strong>, China, July <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[223] \u201cEngineering Practice to Help Human Recover Vital Neural Functions\u201d, <strong><em><b><i>Invited<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Summer School, SJTU<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, July <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[222] \u201cImplantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Invited<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, <strong><b>Changsha<\/b><\/strong>, China, July <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[221] \u201cStrategic Microsystems Alliance of Quebec: Major Resources and Multidisciplinary Researches\u201d, <strong><em><b><i>Seminar<\/i><\/b><\/em><\/strong>, <strong><b>Laval University<\/b><\/strong>, <strong><b>Ste-Foy<\/b><\/strong>, Canada, June <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[220] \u201cLab-on-CMOS-Chip\u00a0based Cell Manipulation and Monitoring for Diagnostic and Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, CASFEST, <strong><b>Montreal<\/b><\/strong>, May<strong><b>\u00a02016<\/b><\/strong>.\n\n<br \/><br \/>[219] \u201cImplantable Neurotechnologies: from Circuits and Signals to Systems and Applications: BMI Case studies\u201d, <strong><em><b><i>Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-ISCAS<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[218] \u201cToward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Nano-Tera, EPFL<\/i><\/b><\/em><\/strong>, <strong><b>Lausanne<\/b><\/strong>, Switzerland, April <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[217] SAWAN, M., \u201cToward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>King Abdallah University (KAUST),<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Thuwal<\/b><\/strong>, Saudi Arabia, March <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[216] SAWAN, M., \u201cToward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>,<strong><b>\u00a0<\/b><\/strong><strong><em><b><i>King Abdulaziz University (KAU),<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Jeddah<\/b><\/strong>, Saudi Arabia, March <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[215] \u201cToward Brain-Machine-Brain Interfaces for the Treatment of Neurodegenerative Diseases\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-<\/i><\/b><\/em><\/strong><strong><em><b><i>ISOCC<\/i><\/b><\/em><\/strong>, <strong><b>Gyeongju<\/b><\/strong>, South Korea, November <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[214] \u201cImplantable Microdevices for the Recovery of Neural Functions\u201d, <strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-ISBB<\/i><\/b><\/em><\/strong>, <strong><b>Beijing<\/b><\/strong>, October <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[213] \u201cAre Invasive Bioelectronics Mandatory to Treat Neurodegenerative Diseases?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>SJTU<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, October <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[212] \u201cSeizure onset detection and subsequent treatment through direct intracortical processing\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Epilepsy &amp; Treatment<\/i><\/b><\/em><\/strong>, <strong><b>Baltimore<\/b><\/strong>, USA, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[211] \u201cHeterogeneous Microdevices for the Recovery of Neural Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-ICABME<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, September <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[210] \u201cInterfaces cerveau-machines pour la r\u00e9cup\u00e9ration des fonctions vitales\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>NO\u00d6S<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, July <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[209] \u201cBrain-microsystem Interfaces for the Recovery of Neural Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>NAMIS<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[208] \u201cToward Brain-Machine-Brain Interfaces for the Recovery of Vital Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>UCL<\/i><\/b><\/em><\/strong>, <strong><b>Brussels<\/b><\/strong>, Belgium, June <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[207] \u201cBrain-Computer-Brain Interfaces for Sensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>CIIA<\/i><\/b><\/em><\/strong>, <strong><b>Saida<\/b><\/strong>, Algeria, May <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[206] \u201cSmart Implantable Brain-Machine Interfaces Intended for Sensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Tutorial<\/i><\/b><\/em><\/strong>, ISCAS, Lisbon, Portugal, May <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[205] \u201cEngineering Neurosensing and Treatment Through Heterogeneous Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>HKUST<\/i><\/b><\/em><\/strong>, <strong><b>Hong Kong<\/b><\/strong>, March <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[204] \u201cChallenges of Wirelessly Managing Power and Data for Wearable and Implantable Medical Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>eHealthForHumanity<\/i><\/b><\/em><\/strong><strong><em><b><i>, MCETECH<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, May <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[203] \u201cBrain-Machine-Brain Interfaces for Sensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-ICM<\/i><\/b><\/em><\/strong>, <strong><b>Doha<\/b><\/strong>, Qatar, December <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[202] \u201cToward Brain-Machine-Brain Interfaces for the Recovery of Vital Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Universit\u00e9 Paul-Sabatier,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Toulouse<\/b><\/strong>, France, December <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[201] \u201cMicrosystems for neuroengineering sensing and treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>ICESTI<\/i><\/b><\/em><\/strong>, <strong><b>Annaba<\/b><\/strong>, Algeria, Oct <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[200] \u201cMotivation and Outcomes in National and International Academic Collaboration\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>CITEF<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, October <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[199] \u201cEstimation of Bladder Volume from Afferent Neural Activity\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>ACRM<\/i><\/b><\/em><\/strong>, <strong><b>Toronto<\/b><\/strong>, Canada, <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[198] \u201cBio-Microsystems for Neuroscience Treatments\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>University of Alberta<\/i><\/b><\/em><\/strong>, <strong><b>Edmonton<\/b><\/strong>, Canada, September <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[197] \u201cSensing and Treatment using Smart Implantable Brain-Machine Interfaces\u201d<em><i>, <\/i><\/em><strong><em><b><i>Summer School<\/i><\/b><\/em><\/strong><em><i>\u00a0<\/i><\/em><strong><em><b><i>Tutorial<\/i><\/b><\/em><\/strong>, <strong><b>Tainan<\/b><\/strong>, Taiwan, September <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[196] \u201cCircuits and Systems for Low-Power Budget Applications\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Huawei<\/i><\/b><\/em><\/strong>, <strong><b>Ottawa<\/b><\/strong>, Canada, September <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[195] \u201cBiosensors and prostheses for neurorecording and neurostimulation\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>University Federal of Santa Catarina<\/i><\/b><\/em><\/strong>, <strong><b>Florianopolis<\/b><\/strong>, Brazil, August <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[194] \u201cChallenges of Wirelessly Managing Power and Data for Implantable Bioelectronics\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar, Cyber-Physical Systems Summer School,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Grenoble<\/b><\/strong>, France, July <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[193] \u201cMultimodal Wearable Brain-Computer Interface for Clinical Imaging Applications\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk, CMOS Emerging Technology Workshop<\/i><\/b><\/em><\/strong>, <strong><b>Grenoble<\/b><\/strong>, France, July <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[192] \u201cToward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote, FTFC<\/i><\/b><\/em><\/strong>, <strong><b>Monte Carlo<\/b><\/strong>, Monaco, May <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[191] \u201cImplantable Brain-Computer Interfaces for Parallel Neurosensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>CREATE SSI<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, May <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[190] \u201cToward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar, KUSTAR<\/i><\/b><\/em><\/strong>, <strong><b>AbuDhabi<\/b><\/strong>, UAE, April <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[189] \u201cImplantable Brain-Machine Interfaces for the Recovery of Neuromuscular Vital Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote, MELECON<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, April <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[188] \u201cChallenges of Wirelessly Managing Power and Data for Implantable Bioelectronics\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote, ISBB<\/i><\/b><\/em><\/strong>, <strong><b>Taipei<\/b><\/strong>, Taiwan, April <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[187] \u201cBrain-Machine Interfaces for Neurorecording and Subsequent Diseases Treatment\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynote, LAAS<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, March <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[186] \u201cMicrosyst\u00e8mes pour redonner la vue aux aveugles\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Seminar, College Andr\u00e9-Grasset<\/i><\/b><\/em><\/strong>, <strong><b>Montr\u00e9al<\/b><\/strong>, Jan. <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[185] \u201cWireless Energy Recovery Intended for Implantable Medical Devices\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk, FETCH Workshop,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Ottawa<\/b><\/strong>, Canada, Jan. <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[184] \u201cMicrosystems to Restore Sight to the Blind\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>USEK<\/i><\/b><\/em><\/strong>, <strong><b>Kaslik<\/b><\/strong>, Lebanon, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[183] \u201cSmart Medical Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Half-Day Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>USEK<\/i><\/b><\/em><\/strong>, <strong><b>Kaslik<\/b><\/strong>, Lebanon, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[182] \u201cDispositifs m\u00e9dicaux intelligents\u00a0pour la r\u00e9cup\u00e9ration des fonctions neurologiques vitales : Vision et \u00e9pilepsie\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Universit\u00e9 de Lorraine<\/i><\/b><\/em><\/strong>, <strong><b>Nancy<\/b><\/strong>, France, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[181] \u201cRecovery of Neuromuscular Vital Functions Through Implantable Brain-Machine Interfaces\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE CASS Student Chapter<\/i><\/b><\/em><\/strong>, <strong><b>Paris<\/b><\/strong>, France, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[180] \u201cDispositifs m\u00e9dicaux intelligents\u00a0pour la r\u00e9cup\u00e9ration des fonctions neurologiques vitales : Vision et \u00e9pilepsie\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>ICube Lab<\/i><\/b><\/em><\/strong>, <strong><b>Strasbourg<\/b><\/strong>, France, December <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[179] \u201cInterfaces cerveaux machines pour la r\u00e9cup\u00e9ration des fonctions neurologiques vitales : vision et \u00e9pilepsie\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>ISEP<\/i><\/b><\/em><\/strong>, <strong><b>Paris<\/b><\/strong>, France, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[178] \u201cAdvanced Biomedical Circuits &amp; Systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Half-Day Tutorial<\/i><\/b><\/em><\/strong>, ISEP, Paris, France, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[177] \u201cInterfaces cerveaux machines pour la r\u00e9cup\u00e9ration des fonctions neurologiques vitales : vision et \u00e9pilepsie\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk, Estia Lab<\/i><\/b><\/em><\/strong>, <strong><b>Biarritz<\/b><\/strong>, France, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[176] \u201cAdvanced Biomedical Circuits &amp; Systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Full-Day Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Universit\u00e9 de Bordeaux-IMS Lab<\/i><\/b><\/em><\/strong>, <strong><b>Bordeaux<\/b><\/strong>, France, November <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[175] \u201cFully Integrated RF Circuits for Efficiently Harvesting Electromagnetic Energy\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-AVIC<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, Canada, October <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[174] \u201cAdvanced Biomedical Circuits &amp; Systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Full-Day Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Universit\u00e9 de Lorraine<\/i><\/b><\/em><\/strong>, <strong><em><b><i>EASE Lab<\/i><\/b><\/em><\/strong>, <strong><b>Metz<\/b><\/strong>, France, October <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[173] \u201cInterfaces cerveaux machines pour la r\u00e9cup\u00e9ration des fonctions neurologiques vitales : vision et \u00e9pilepsie\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-Quebec Section<\/i><\/b><\/em><\/strong>, <strong><b>Quebec<\/b><\/strong>, Canada, October <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[172] \u201cHarvesting Energy and Wireless Data Exchange with Implantable Medical Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote<\/i><\/b><\/em><\/strong>, <strong><em><b><i>IEEE-ICABME,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Tripoli<\/b><\/strong>, Lebanon, September <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[171] \u201cWill Emerging Implantable Brain-Machine Interfaces Achieve Expected Impact?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><b>Chengdu<\/b><\/strong>, China, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[170] \u201cMicrosystems to Restore Sight to the Blind\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Summer Camps, SoE, SJTU<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[169] \u201cAdvanced Biomedical Circuits and Systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>One Month Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>SoE, SJTU<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[168] \u201cWill Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Neural Diseases?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><b>Hefei<\/b><\/strong>, China, July <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[167] \u201cWill Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Diseases?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>ENSTA Bretagne<\/i><\/b><\/em><\/strong>, <strong><b>Brest<\/b><\/strong>, France, June <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[166] \u201cHarvesting Energy and Wireless Control of Implantable Medical Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote, ISWPT<\/i><\/b><\/em><\/strong>, <strong><b>Guiyang<\/b><\/strong>, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[165] \u201cHarvesting Energy and Wireless Data Links for Implantable Bioelectronics\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Chinese Academy of Sciences<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[164] \u201cSacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>at CRME<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, May <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[163] \u201cWirelessly Powered Intracortical Brain-Machine Interfaces for Vision and Epilepsy Treatments\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Universidade do Sao Paula<\/i><\/b><\/em><\/strong>, <strong><b>Sao Paulo<\/b><\/strong>, Brazil, Apr. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[162] \u201cEnergy Harvesting and Wireless Data Exchange for Implantable Medical Devices\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, Universidade Federal do Rio Grande do Sul, <strong><b>Porto Alegre<\/b><\/strong>, Brazil, Apr. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[161] \u201cHarvesting Energy and Wireless Links for Biosystems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>FUSC<\/i><\/b><\/em><\/strong>, <strong><b>Florianpolis<\/b><\/strong>, Brazil, Mar. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[160] \u201cAdvanced Biomedical Circuits and Systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>One Month Tutorial<\/i><\/b><\/em><\/strong>, <strong><em><b><i>FUSC<\/i><\/b><\/em><\/strong>, <strong><b>Florianpolis<\/b><\/strong>, Brazil, Mar. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[159] \u201cEmerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>FUSC<\/i><\/b><\/em><\/strong>, <strong><b>Florianpolis<\/b><\/strong>, Brazil, Mar. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[158] \u201cMicrosyst\u00e8mes pour redonner la vue aux aveugles\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Seminar, College Andr\u00e9-Grasset,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Montr\u00e9al<\/b><\/strong>, Feb. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[157] \u201cHarvesting Energy and Wireless Links for Biosystems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>KFUPM<\/i><\/b><\/em><\/strong>, Saoudi Arabia, Feb. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[156] \u201cEmerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>KFUPM<\/i><\/b><\/em><\/strong>, Arabie Saoudite, Feb. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[155] \u201cWill Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Seminar<\/i><\/b><\/em><\/strong>, <strong><em><b><i>UQAM<\/i><\/b><\/em><\/strong>, <strong><b>Montr\u00e9al<\/b><\/strong>, Feb. <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[154] \u201cWill Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-Solid-State Circuits Society DL<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>Tutorial<\/i><\/b><\/em><\/strong>, <strong><b>Sfax<\/b><\/strong>\u00a0Tunisia, Jan <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[153] \u201cWireless Brain-Machine Interfaces for Neurosensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote at IEEE-ICM<\/i><\/b><\/em><\/strong>, <strong><b>Alger<\/b><\/strong>, Algeria, Dec <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[152] \u201cBrain-Machine Interfaces for the Recovery of Neural Vital Functions\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote at ACTEA<\/i><\/b><\/em><\/strong>, <strong><b>Kaslik<\/b><\/strong>, Lebanon, Dec <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[151] \u201cWireless Brain-Machine Interfaces for Neurosensing and Stimulation: Multidimentional Challenges in Building Embedded systems\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote at ICESTI<\/i><\/b><\/em><\/strong>, <strong><b>Algeria<\/b><\/strong>, Nov <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[150] \u201cBrain-Machine Biosensing and Treatment Interfaces and Techniques\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-Solid-State Circuits Society Distinguished Lecture (DL) Tutorial<\/i><\/b><\/em><\/strong>, <strong><b>Pretoria<\/b><\/strong>, South Africa, Oct. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[149] \u201cBrain-Computer Interfaces for Massively Parallel Neurorecording and Microstimulation\u201d<em><i>, <\/i><\/em><strong><em><b><i>Keynote at UCWSNW<\/i><\/b><\/em><\/strong>, <strong><b>Cairo<\/b><\/strong>, Egypt, Oct. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[148] \u201cBrain-Machine-Brain Interfaces and Techniques\u201d<em>, <\/em><strong><em><b>Invited Seminar<\/b><\/em><\/strong>, <strong>Nice<\/strong>, France, 24 Sept. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[147] \u201cWireless Brain-Machine Biosensing and Treatment Interfaces and Techniques\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-Solid-State Circuits Society DL Tutorial<\/i><\/b><\/em><\/strong>, <strong><b>Bengalore<\/b><\/strong>, India, July <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[146] \u201cWireless Brain-Machine Biosensing and Treatment Interfaces and Techniques\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-Solid-State Circuits Society DL Tutorial<\/i><\/b><\/em><\/strong>, <strong><b>NewDelhi<\/b><\/strong>, India, July <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[145] \u201cWill Emerging Biochips Achieve Breakthrough Treatment of Brain Diseases ?\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Neuro-Electronics Summer Camp<\/i><\/b><\/em><\/strong>, <strong><b>Shanghai<\/b><\/strong>, China, July <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[144] \u201cMassively Parallel Intracortical Sensing and Subsequent Treatment\u201d<em>, <\/em><strong><em><b>Invited Talk<\/b><\/em><\/strong>, FTFC, Paris, June 2012.\n\n<br \/><br \/>[143] \u201cBrain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Hitachi<\/i><\/b><\/em><\/strong>, <strong><b>Tokyo<\/b><\/strong>, Japan, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[142] \u201cChallenging\u00a0Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk NAMIS, <\/i><\/b><\/em><\/strong><strong><b>Sendai<\/b><\/strong>, Japan, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[141] \u201cBrain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-SSCS DL<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Kansai<\/i><\/b><\/em><\/strong>, <strong><b>Osaka<\/b><\/strong>, Japan, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[140] \u201cBrain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation\u201d<em><i>, <\/i><\/em><strong><em><b><i>IEEE-Solid-State Circuits Society DL<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Tokyo Institute of Technology<\/i><\/b><\/em><\/strong>, <strong><b>Tokyo<\/b><\/strong>, Japan, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[139] \u201cBrain-Machine-Brain Interfaces: Challenging Implantable Microsystems for Sensing and Subsequent Treatment\u201d<em><i>, <\/i><\/em><strong><em><b><i>Invited Talk<\/i><\/b><\/em><\/strong>, Seoul, Korea, May <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[138] \u201cChallenging\u00a0Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk, Biomedical conference series, McGill University<\/i><\/b><\/em><\/strong>, <strong><b>Montreal<\/b><\/strong>, \u00a0Mar <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[137] \u201cMultidimentional Challenges in Building Microsystems for Massively Parallel Wireless Neurorecording\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynote at Semba-Biopro Workshop<\/i><\/b><\/em><\/strong>, <strong><b>Taipei<\/b><\/strong>, Taiwan, 11 Feb <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[136] \u201cMicrosyst\u00e8mes pour redonner la vue aux aveugles\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Seminar, College Andr\u00e9-Grasset,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>Montr\u00e9al<\/b><\/strong>, 2 Feb <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[135] \u201cIntracortical Interfaces for Multichannel Sensing and Subsequent Treatment\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynote at The Annual BETRC-NCTU Workshop<\/i><\/b><\/em><\/strong>, <strong><b>Tainan<\/b><\/strong>, Taiwan, 3 Dec <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[134] \u201cSacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk, 10<\/i><\/b><\/em><\/strong><strong><em><sup><b><i>th<\/i><\/b><\/sup><\/em><\/strong><strong><em><b><i>\u00a0Annual C. Tator-B. Turnbull Lectureship Series in Spinal Cord Injury, <\/i><\/b><\/em><\/strong><strong><b>Toronto<\/b><\/strong>, Canada, Nov <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[133] \u201cSmart Brain Interfaces for Sensing and Subsequent Treatments\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynote, IEEE-CID, <\/i><\/b><\/em><\/strong><strong><b>Albany<\/b><\/strong>, USA, Oct <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[132] \u201cImplantable Biochips for Wireless Brain-Machine-Brain Interfaces\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-Solid-State Circuits Society DL, <\/i><\/b><\/em><\/strong><strong><b>Hong Kong<\/b><\/strong>, China, <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[131] \u201cSmart Brain Interfaces for Diagnostic and Subsequent Treatments\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Seminar, SJTU<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>Shanghai<\/b><\/strong>, 28 Sept <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[130] \u201cBiochips for Wireless Brain-Machine-Brain Interfaces\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-Solid-State Circuits Society, <\/i><\/b><\/em><\/strong><strong><b>Beijing<\/b><\/strong>, China, 27 Sept <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[129] \u201cSmart Biochips for Wireless Brain-Machine-Brain Interfaces\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-Solid-State Circuits Society, <\/i><\/b><\/em><\/strong><strong><b>Shanghai<\/b><\/strong>, China, 30 Sept <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[128] \u201cWearable and Implantable Wireless Brain-Machine Interfaces for Biosensing and Treatment of Neural Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Seminar, Yonsei Univ. Annual Workshop, <\/i><\/b><\/em><\/strong><strong><b>Seoul<\/b><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong>Korea, 3 Oct <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[127] \u201cBrain-Machine Interfaces for Wireless Biosensing and Treatment of Neural Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynotes, IEEE-ICOST, <\/i><\/b><\/em><\/strong><strong><b>Montreal<\/b><\/strong>, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[126] \u201cBrain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Seminar, BWRC<\/i><\/b><\/em><\/strong>, <strong><b>Berkeley<\/b><\/strong>, CA,USA, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[125] \u201cBrain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-Solid-State Circuits Society, National Semiconductor, <\/i><\/b><\/em><\/strong><strong><b>Santa-Clara<\/b><\/strong>, CA, USA, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[124] \u201cHarvesting Energy and Bidirectional Wireless Data Transmission for Implantable BMI Applications\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited talk, IEEE-IMS, RFIC WS, <\/i><\/b><\/em><\/strong><strong><b>Baltimore<\/b><\/strong>, USA, June <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[123] \u201cImplantable Brain-Machine Interfaces for Biosensing and Subsequent Treatment of Central Neural System Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited talk, IEEE-FTFC, <\/i><\/b><\/em><\/strong><strong><b>Marrakech<\/b><\/strong>, Morrocco, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[122] \u201cBrain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-SSCS DL, <\/i><\/b><\/em><\/strong><strong><b>Porto Alegre<\/b><\/strong>, Brazil, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[121] \u201cMicrosyst\u00e8mes d\u00e9di\u00e9s \u00e0 des interfaces cerveaux-machines\u201d<em>,<\/em><strong><em><b>\u00a0<\/b><\/em><\/strong><strong><em>Invited talk<\/em><\/strong><strong><em><b>, <\/b><\/em><\/strong><strong><em><i>ENSA, <\/i><\/em><\/strong><strong>Tunis<\/strong>, Tunisia, May 2011.\n\n<br \/><br \/>[120] \u201cMicrosyst\u00e8mes d\u00e9di\u00e9s \u00e0 des interfaces cerveaux-machines\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited talk, ENISo<\/i><\/b><\/em><\/strong>, <strong><b>Sousse<\/b><\/strong>, Tunisia, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[119] \u201cBrain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0IEEE-SSCS DL, Columbia Univ.,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>New York<\/b><\/strong>, USA, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[118] \u201cMassively Parallel Brain-Computer Interfaces for Biosensing and Subsequent Treatment of Neural Dysfunctions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Tutorial, IEEE-ISMICT, <\/i><\/b><\/em><\/strong><strong><b>Lausanne<\/b><\/strong><strong><em><b><i>, <\/i><\/b><\/em><\/strong>Switzerland, March <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[117] \u201cInterface cerveau-machine pour la d\u00e9tection et traitement de foyers \u00e9pileptiques\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk, FETCH, <\/i><\/b><\/em><\/strong><strong><b>Quebec<\/b><\/strong>, Canada, Jan.<strong><b>\u00a02011<\/b><\/strong>.\n\n<br \/><br \/>[116] \u201cImplantable Microsystems Intended for Onset Epileptic Seizure Detection and Treatment\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynotes, IEEE-CIBEC, <\/i><\/b><\/em><\/strong><strong><b>Cairo<\/b><\/strong>, Egypt, Dec. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[115] \u201cEmerging Brain-Machine Interfaces for Diagnostic and Recovery of Neural Vital Functions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk, IEEE-ISNE<\/i><\/b><\/em><\/strong>, <strong><b>Taipei<\/b><\/strong>, Taiwan, Nov. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[114] \u201cResearch Areas in IEEE-CAS Society Needed for, and Can be Applied to, BMIs\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Invited Talk at IEEE-SMC BMI Workshop, <\/i><\/b><\/em><\/strong><strong><b>Istanbul<\/b><\/strong>, Turkey, Oct. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[113] \u201cHarvesting Energy and Wireless Data Transmission for Sensors and Actuators\u201d, <strong><em><b><i>Invited Talk, Workshop NSFC-FQRNT, Green ICT: Sustainable Wireless Communications, <\/i><\/b><\/em><\/strong><strong><b>Beijing<\/b><\/strong>, China, Sept. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[112] \u201cBrain-Machine Interfaces for Accurate Monitoring and Subsequent Treatment of Central Neural System Functions\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Keynotes at IEEE-EMBC Workshop, <\/i><\/b><\/em><\/strong><strong><b>Waterloo<\/b><\/strong>, Ontario, Oct. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[111] \u201cEmerging Wireless Intracortical Massively Parallel Biosensing\u201d, <strong><em><b><i>Tutorial, RaMSiS Summer School Next Generation Mobile Communications<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Notre-Dame University<\/i><\/b><\/em><\/strong>, <strong><b>Beirut<\/b><\/strong>, Lebanon, July <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[110] \u201cWireless Brain\u2010Machine Interface for the Recovery of Neural Vital Functions\u201d, <strong><em>Tutorial at the 6th RaMSiS Summer School Next Generation Mobile Communications: Chipset Design and Applications<\/em><\/strong>, Notre-Dame University, <strong><b>Beirut<\/b><\/strong><strong><b>, <\/b><\/strong>Lebanon, July <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[109] \u201cLow-power implantable devices for onset seizures detection and subsequent treatment\u201d, <strong><em>Keynotes at the 16th IEEE Int\u2019l Mixed-Signals, Sensors, and Systems Test Workshop (IMS3TW),<\/em><\/strong>\u00a0<strong><b>Montpellier<\/b><\/strong>, France, June <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[108] \u201cNew sacral neurostimulation strategy for improving bladder voiding in paraplegic dogs\u201d, <strong><em>Keynotes at the 4th annual meeting of the Canadian Neuromodulation Society (CNS),<\/em><\/strong>\u00a0<strong><b>Quebec<\/b><\/strong>, Quebec, June <strong><b>2010<\/b><\/strong>\n\n<br \/><br \/>[107] \u201cIntracortical Multichannel Recording for Efficient Prosthetic Implementation\u201d, <strong><em>Invited talk at Joint IEEE CASS \/ SSCS\/EDS Chapter,<\/em><\/strong>\u00a0<strong><b>Ottawa,<\/b><\/strong>\u00a0Canada, May <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[106] \u201cCircuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission\u201d, <strong><em>Keynotes at the 16th IEEE Int\u2019l Symposium on Asynchronous Circuits and Systems (ASYNC),<\/em><\/strong>\u00a0<strong><b>Grenoble,<\/b><\/strong>\u00a0France, May <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[105] \u201cCircuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission\u201d, <strong><em>Invited talk at Universit\u00e9 de Montpellier II,<\/em><\/strong>\u00a0<strong><b>Montpellier,<\/b><\/strong>\u00a0France, March <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[104] &#8220;Microsyst\u00e8mes pour redonner la vue aux aveugles\u00a0: Conf\u00e9rences en classe&#8221;, <strong><em>Invited talk at Baie-Comeau College<\/em><\/strong>, Video-conference, March <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[103] \u201cLes activit\u00e9s de recherche sur les microsyst\u00e8mes au Qu\u00e9bec\u00a0: projets et infrastructures\u201d, <strong><em>Invited talk at Universit\u00e9 de Sherbrooke,<\/em><\/strong>\u00a0<strong><b>Sherbrooke<\/b><\/strong>, Canada, February <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[102] \u201cEfficient Wireless Power Recovery and Bidirectional Data Transmission in Smart Medical Devices\u201d, <strong><em>Invited talk at CMC Microsystems <\/em><\/strong><strong><em><b>Wearable Wireless Devices for Bio-Medical Applications<\/b><\/em><\/strong><strong><em>\u00a0Workshop,<\/em><\/strong>\u00a0<strong><b>Montreal,<\/b><\/strong>\u00a0February <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[101] \u201cMulti-modes high performance digital pixel sensor for visual intracortical microstimulation\u201d, <strong><em>Invited talk, CMC Microsystems Bioimaging for Bio-Sensing Applications Workshop,<\/em><\/strong>\u00a0<strong><b>Montreal,<\/b><\/strong>\u00a0November <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[100] \u201cBiomedical Circuits and Microsystems for Wireless Intracortical Biosensing and Treatment\u201d, <strong><em>Tutorial, Int\u2019l Conf. on Electronics, Circuits and Systems (ICECS),<\/em><\/strong>\u00a0<strong><b>Tunisia,<\/b><\/strong>\u00a0Dec. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[99] \u201cMicrosyst\u00e8mes embarqu\u00e9s d\u00e9di\u00e9s \u00e0 la r\u00e9cup\u00e9ration de fonctions neuromusculaires\u201d, <strong><em>Invited talk, Ecole Marocaine des sciences de l\u2019ing\u00e9nieur,<\/em><\/strong>\u00a0<strong><b>Casablanca,<\/b><\/strong>\u00a0Morocco, Dec. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[98] &#8220;Microsyst\u00e8mes pour redonner la vue aux aveugles\u00a0: Conf\u00e9rences en classe&#8221;, <strong><em>Invited talk at Edouard-Montpetit College<\/em><\/strong>, <strong><b>Longueil, <\/b><\/strong>October <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[97] \u201cIntracortical Microsystems for Wireless Biosensing and Visual Microstimulation\u201d, <strong><em>Invited talk, <\/em><\/strong><strong><em><b>Computer Science &amp; Eng. Colloquium<\/b><\/em><\/strong><strong><em>, Washington University, <\/em><\/strong><strong><b>St-Louis, <\/b><\/strong>USA, Sept. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[96] \u201cIntracortical Microstimulation to Create Vision\u201d, <strong><em>Invited talk at the IEEE-Custom Integrated Circuits Conference (CICC), <\/em><\/strong><strong><b>San Jose, <\/b><\/strong>USA, Sept. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[95] \u201cEmerging CMOS-Based biosensing technologies\u201d, <strong><em>Tutorial, Symposium on Integrated Circuits and Systems Design (SBCCI),<\/em><\/strong>\u00a0<strong><b>Brazil,<\/b><\/strong>\u00a0Sept. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[94] \u201cCapacitive Sensing Technique Dedicated for Biodiagnostic Microsystems\u201d, <strong><em>Tutorial, 19th European Conference on Circuit Theory and Design (ECCTD),<\/em><\/strong>\u00a0<strong><b>Turkey,<\/b><\/strong>\u00a0Sept. <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[93] \u00a0\u201cBrain-machine interface: 3D-IC for intracortical recording and wireless transmission\u201d, <strong><em>Invited talk at the System Design for 3D Silicon Integration Workshop (D43D)<\/em><\/strong>, <strong><b>Grenoble, <\/b><\/strong>June <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[92] \u201cIntracortical microstimulation for creating vision: a multidisciplinary approach\u201d, <strong><em>Invited talk at the IEEE Mixed-Signals, Sensors and Systems Test Workshop (IMS3TW)<\/em><\/strong>, <strong><b>Scottsdale,<\/b><\/strong>\u00a0June <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[91] \u201cMicrosyst\u00e8mes m\u00e9dicaux implantables : d\u00e9fis de conception et d&#8217;int\u00e9gration\u201d, <strong><em>Invited Talk at ACFAS<\/em><\/strong>, <strong><b>Ottawa,<\/b><\/strong>\u00a0May <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[90] \u201cIntracortical Wireless Microsystems for Biosensing and Neurostimulation\u201d, <strong><em>Tutorial at the GLSVLSI<\/em><\/strong>, <strong><b>Boston,<\/b><\/strong>\u00a0USA, May <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[89] \u201cImplantable Intracortical Microsystems for Wireless Biosensing and Treatment\u201d, <strong><em>Invited talk at Michigan State University,<\/em><\/strong>\u00a0<strong><b>Detroit,<\/b><\/strong>\u00a0USA, April <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[88] \u201cMultichannel sensing for better primary visual cortex microstimulation\u201d, <strong><em>Invited talk at ACM Siggraph<\/em><\/strong>, <strong><b>Montreal, <\/b><\/strong>Canada February <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[87] \u201cMultichannel sensing and stimulation in the cortex: Design and packaging challenges\u201d, <strong><em>Invited talk at University of Cyprus<\/em><\/strong>, <strong><b>Cyprus, <\/b><\/strong>January <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[86] \u201cLearning from the primary visual cortex to recover vision for the blind by microstimulation\u201d, <strong><em>Keynotes at IEEE-Norchip<\/em><\/strong>, <strong><b>Tullin,<\/b><\/strong>\u00a0Estonia, November <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[85] \u201cLab-on-Chip Based Sensors for bioparticles detection and characterisation\u201d, <strong><em>Tutorial at IEEE-Norchip<\/em><\/strong>, <strong><b>Tullin,<\/b><\/strong>\u00a0Estonia, November <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[84] \u201cPartenariats pour le d\u00e9veloppement et la commercialisation d&#8217;un implant urinaire\u201d, <strong><em>Entretiens Jacques-Cartier,<\/em><\/strong><strong><em>\u00a0<\/em><\/strong><strong>Montreal,<\/strong>\u00a0Canada, October <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[83] \u201cMedical Microsystems for the Recovery of Vital Neural Functions\u201d, <strong><em>Invited Talk, <\/em><\/strong>National Cheng Kung University, <strong><b>Tainan,<\/b><\/strong>\u00a0September <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[82] \u201cMedical Microsystems for the Recovery of Vital Neural Functions\u201d, <strong><em>Invited Talk, <\/em><\/strong>National Taiwan University, <strong><b>Taipei,<\/b><\/strong>\u00a0September <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[81] \u201cMicrosystems Based on Microelectronics Technologies: Overview and Successful Stories of ReSMiQ Research Centre\u201d, <strong><em>Invited Talk, <\/em><\/strong>MEMS Emerging technology Forum, <strong><b>Hsinchu,<\/b><\/strong>\u00a0September <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[80] \u201cLab-on-Chip Based Diagnostic Tools: Microfluidic Structures on Top of CMOS Devices\u201d, <strong><em>Tutorial at IEEE-ICECS<\/em><\/strong>, <strong><b>Malta,<\/b><\/strong>\u00a0September <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[79] \u201cWireless Intracortical Microsystems for Sensing and Subsequent Treatment\u201d, <strong><em>Invited Talk at CMOS Emerging Technology<\/em><\/strong>, <strong><b>Whistler, <\/b><\/strong>Canada, August <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[78] \u201cWireless Multi-channel Stimulation and sensing from the cortex: Design and test challenges\u201d, <strong><em>Invited Talk at VERIMAG<\/em><\/strong>, <strong><b>Grenoble,<\/b><\/strong>\u00a0France, July <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[77] \u201cArchitectures, approches et infrastructures d\u00e9di\u00e9es \u00e0 la construction de microdispositifs h\u00e9t\u00e9rog\u00e8nes embarqu\u00e9s\u201d, <strong><em>Invited Talk at SSNE\u201908<\/em><\/strong>, Alger, May <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[76] \u201cMassively parallel wireless sensing from the cortex: Design and test challenges\u201d, <strong><em>Invited Talk at IEEE-VTS<\/em><\/strong>, <strong><b>San Diego,<\/b><\/strong>\u00a0May <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[75] \u201cMicrosystems for advanced diagnostic and treatment tools\u201d, <strong><em>Invited Talk at Shanghai Jiao Tong University<\/em><\/strong>, <strong><b>Shanghai,<\/b><\/strong>\u00a0China, April <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[74] \u201cCircuits and systems for medical wearable devices\u201d, <strong><em>Invited Talk at Shanghai Jiao Tong University<\/em><\/strong>, <strong><b>Shanghai,<\/b><\/strong>\u00a0China, April <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[73] \u201cBiomedical Circuits and Systems Dedicated for Sensing and Neurostimulation\u201d, <strong><em>Keynotes at ELECO<\/em><\/strong>, <strong><b>Bursa,<\/b><\/strong>\u00a0Turkey, Dec. <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[72] \u201cCircuits and Systems Dedicated for biosensors and implantable stimulators\u201d, <strong><em>Tutorial at University of Istanboul<\/em><\/strong>, <strong><b>Istanboul,<\/b><\/strong>\u00a0Turkey, Dec. <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[71] \u201cA 0.18 \u03bcm CMOS Capacitive Detection Lab-on-Chip\u201d, <strong><em>Invited Talk at IEEE-CICC<\/em><\/strong>, <strong><b>San Jose,<\/b><\/strong>\u00a0September <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[70] &#8220;Diagnostic tools based on mixed-technology microdevices&#8221;, <strong><em>Tutorial ECCDT2007<\/em><\/strong>, <strong><b>Sevilla, <\/b><\/strong>Spain, August <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[69] \u201cCMOS Based Laboratory-on-Chip: A Multidisciplinary Approach\u201d, <strong><em>Invited Talk at CMOS Emerging Technology<\/em><\/strong>, <strong><b>Whistler,<\/b><\/strong>\u00a0Canada, August <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[68] &#8220;Neurostimulation and Neuromodulation to Enhance the Bladder Functions&#8221;, <strong><em>Invited Talk at IHMNC\/CAN<\/em><\/strong>, <strong><b>Toronto,<\/b><\/strong>\u00a0Canada, May <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[67] &#8220;Implantable diagnostic tools based on mixed-technology microdevices&#8221;, <strong><em>Tutorial FTFC<\/em><\/strong>, <strong><b>Paris, <\/b><\/strong>France, May <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[66] &#8220;Engineering Biosensing Microsystems for Advanced Diagnostic Tools&#8221;, <strong><em>Keynotes at ICBME<\/em><\/strong>, <strong><b>Tehran,<\/b><\/strong>\u00a0Feb. <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[65] &#8220;Microsyt\u00e8mes d\u00e9di\u00e9s aux applications m\u00e9dicales intracorticales: r\u00e9alisation et exp\u00e9rimentation&#8221;, <strong><em>Invited Talk at<\/em><\/strong>\u00a0<strong><em>F<\/em><\/strong><strong><em>ETCH<\/em><\/strong>,<strong><b>\u00a0Lyon,<\/b><\/strong>\u00a0France, Jan. <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[64] &#8220;La recherche en ing\u00e9nierie par l\u2019exemple\u00a0: Micro\u00e9lectronique d\u00e9di\u00e9e aux microsyst\u00e8mes implantables: d\u00e9fis et limites&#8221;, <strong><em>Invited Seminar at<\/em><\/strong>\u00a0<strong><em>Journ\u00e9e Franco-Qu\u00e9becoise<\/em><\/strong>, <strong><b>Marseille,<\/b><\/strong>\u00a0France, December <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[63] &#8220;Implantable Smart Medical Microsystems: Limits and Challenges&#8221;, <strong><em>Keynotes at 13<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0IEEE ICECS<\/em><\/strong>, <strong><b>Nice,<\/b><\/strong>\u00a0France, December <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[62] &#8220;Engineering Biosensing Microsystems for Advanced Diagnostic Tools&#8221;, <strong><em>Invited Seminar at<\/em><\/strong>\u00a0<strong><em>Shanghai JTU<\/em><\/strong>, <strong><b>Shanghai,<\/b><\/strong>\u00a0China, October <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[61] &#8220;Micro\/Nano Opportunities in Implantable Medical Devices&#8221;, <strong><em>Keynotes at Micro-NanoUtah<\/em><\/strong>, <strong><b>Salt Lake<\/b><\/strong>\u00a0City, USA, October <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[60] &#8220;Signal Processing Based Implantable Microsystems for Intracortical Therapeutic Purposes&#8221;, <strong><em>Keynotes at IEEE SIPS<\/em><\/strong>, <strong><b>Calgary, <\/b><\/strong>October <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[59] &#8220;Microsyst\u00e8mes pour redonner la vue aux aveugles\u00a0: Conf\u00e9rences en classe<strong>\u00a0<\/strong>&#8220;, <strong><em>CEGEP du Vieux-Montreal<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, September <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[58] &#8220;Biomedical Circuits and Systems Dedicated to Remote Sensing and Neurostimulation&#8221;, <strong><em>DL North Jersey CAS Chapter<\/em><\/strong>, USA, May <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[57] &#8220;Wireless Communication Circuits for Biomedical Devices&#8221;, <strong><em>SYTACom Workshop<\/em><\/strong>, ACFAS, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, May <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[56] &#8220;Mise en oeuvre de dispositifs de surveillance et stimulation intracorticales&#8221;, <strong><em>GRSTB Workshop<\/em><\/strong>, <strong><b>Montreal, <\/b><\/strong>Canada, May <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[55] &#8220;The Pursuit of Sight Restoration for the Blind by Intracortical Microstimulation&#8221;, <strong><em>Keynotes Northeast Bioengineering Conference<\/em><\/strong>, <strong><b>Easton,<\/b><\/strong>\u00a0PA, April <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[54] &#8220;Microelectronics to build microsystems dedicated to several applications&#8221;, <strong><em>FQRNT Workshop<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, January <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[53] &#8220;De la puce \u00e0 l&#8217;oreille jusqu&#8217;\u00e0 l&#8217;oeil \u00e9lectronique &#8220;, <strong><em>Profil deVinci<\/em><\/strong>, Polytechnique, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, January <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[52] \u201cBiomedical Circuits and Systems for Implantable Devices\u201d, <strong><em>Lebanese American University<\/em><\/strong>, <strong><b>Beirut,<\/b><\/strong>\u00a0Lebanon, Dec. <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[51] \u201cWireless Biomedical Circuits and Systems Techniques dedicated to Sensoring and Neurostimulation\u201d, <strong><em>LIRMM Centre<\/em><\/strong>, <strong><b>Montpellier,<\/b><\/strong>\u00a0France, Nov. <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[50] \u201cBioCAS to Build Wirelessly Powered and Controlled Medical Devices\u201d, <strong><em>Tutorial, ECCTD<\/em><\/strong>, <strong><b>Ireland,<\/b><\/strong>\u00a0September <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[49] HU, Y., COULOMBE, J., \u201cWireless Powered and Bidirectional Data Exchanged in Smart Medical Microsystems\u201d, invited paper in <strong><em>IEEE-CICC<\/em><\/strong>, <strong><b>San Jose,<\/b><\/strong>\u00a0September <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[48] \u201cBioCAS to Build Wirelessly Powered and Controlled Medical Devices\u201d, <strong><em>Tutorial at IEEE-ECCTD<\/em><\/strong>, <strong><b>Ireland,<\/b><\/strong>\u00a0September <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[47] \u201cLes implants micro\u00e9lectroniques\u00a0: capteurs et microstimulateurs\u201d, <strong><em>PRECARN IS Conference<\/em><\/strong>, <strong><b>Quebec,<\/b><\/strong>\u00a0<strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[46] \u201cAdvanced Circuit Techniques to Implement Biomedical Implantable Microsystems\u201d, <strong><em>Tutorial at IEEE-ISCAS<\/em><\/strong>, <strong><b>Kobe,<\/b><\/strong>\u00a0Japan, May <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[45] \u201cAdvanced Techniques to Build Smart Implantable Medical Devices\u201d, <strong><em>DL<\/em><\/strong>\u00a0<strong><em>Vancouver IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Vancouver,<\/b><\/strong>\u00a0Canada, May <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[44] \u201cAdvanced Techniques to Build Smart Implantable Medical Devices\u201d, <strong><em>DL<\/em><\/strong>\u00a0<strong><em>Calgary IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Calgary,<\/b><\/strong>\u00a0Canada, May <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[43] \u201cImplantable Medical Devices to Recuperate Vital Neural Functions\u201d, <strong><em>Lebanese International University, Lebanon<\/em><\/strong>, April <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[42] \u201cMicrosystems dedicated to build Smart Medical Devices: Present and future directions\u201d, <strong><em>IEEE Polytechnique Student Chapter<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, April <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[41] \u201cWirelessly Powered and Fully Controlled Smart Medical Microsystems\u201d, <strong><em>DL Halifax IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Halifax,<\/b><\/strong>\u00a0Canada, March <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[40] \u201cAdvanced Techniques to Build Smart Implantable Medical Devices\u201d, <strong><em>DL Caribean IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Puerto-Rico, <\/b><\/strong>March <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[39] \u201cAdvanced Techniques to Build Smart Implantable Medical Devices\u201d,<strong><em>\u00a0DL<\/em><\/strong>\u00a0<strong><em>San Juan IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Puerto-Rico,<\/b><\/strong>\u00a0March <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[38] \u201cImplantable Microdevices for Multichannel Monitoring and Electrical Stimulation\u201d, <strong><em>DL Singapore<\/em><\/strong>\u00a0<strong><em>IEEE-CAS Chapter<\/em><\/strong>, Singapore, December <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[37] \u201cImplantable Microdevices for Multichannel Monitoring and Electrical Stimulation\u201d,<strong><em>\u00a0DL<\/em><\/strong>\u00a0<strong><em>France<\/em><\/strong>\u00a0<strong><em>IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Paris,<\/b><\/strong>\u00a0France, November <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[36] \u201cMicrosystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging\u201d, <strong><em>IEEE-ICSICT<\/em><\/strong>,<strong><b>\u00a0Beijing,<\/b><\/strong>\u00a0China, <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[35] \u201cWirelessly controlled implantable devices for multichannel monitoring and stimulation\u201d, <strong><em>IEEE-ICCSC<\/em><\/strong>, <strong><b>Moscow,<\/b><\/strong>\u00a0July <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[34] \u201cWireless smart implants dedicated to multichannel monitoring and microstimulation\u201d, <strong><em>IEEE-ICPS<\/em><\/strong><em>,<\/em>\u00a0<strong><b>Beirut,<\/b><\/strong>\u00a0Lebanon, June 2004.\n\n<br \/><br \/>[33] \u201cBuilding Biomedical Microsystems: Design and Experimental Validation\u201d, <strong><em>Dept of ECE<\/em><\/strong>, McMaster Univ., <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[32] \u201cMicrosystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging\u201d, <strong><em>IEEE-ICSICT,<\/em><\/strong>\u00a0<strong><b>Beijing, <\/b><\/strong>China, October <strong><b>2004<\/b><\/strong>, vol. 2, pp. 1408-1411.\n\n<br \/><br \/>[31] \u201cWireless smart implants dedicated to multichannel monitoring and microstimulation\u201d, <strong><em>The IEEE\/ACS International conference on Pervasive Services,<\/em><\/strong>\u00a0<strong><b>Beirut,<\/b><\/strong>\u00a0Lebanon, July <strong><b>2004<\/b><\/strong>, pp. 21-26.\n\n<br \/><br \/>[30] \u201cDual Neurostimulation to Recuperate the Urinary Bladder Functions\u201d, The Institute of Neuro-sciences <strong><em>Mental Health and Addiction annual meeting<\/em><\/strong>, <strong><b>Toronto,<\/b><\/strong>\u00a0Canada, November <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[29] \u201cBiomedical circuits and systems to recuperate neuromuscular functions\u201d <strong><em>IEEE-CAS Chapter<\/em><\/strong>, <strong><b>Waterloo,<\/b><\/strong>\u00a0Canada, September <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[28] \u201cAnalog-to-Digital Converters Dedicated to Wide-Bandwidth Wireless Transceivers\u201d, <strong><em>Wireless Industry Congress<\/em><\/strong>, <strong><b>Ottawa, <\/b><\/strong>Canada,\u00a0September <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[27] \u201cImplantable Smart Medical Devices to Recuperate Neuromuscular Functions\u201d, <strong><em>McGill University<\/em><\/strong>, April <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[26] \u201cVisual Electronic Implants: Principal &amp; Alternative\u201d, <strong><em>Universit\u00e9 de Montr\u00e9al<\/em><\/strong>, March <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[25] \u201cNeurostimulation to reduce the Hyperreflexia of the Detrusor and Avoid its Dyssynergia with the Sphincter\u201d, <strong><em>Int. <\/em><\/strong><strong><em>Society for Pelvic Neuromodulation<\/em><\/strong>, <strong><b>Phoenix, <\/b><\/strong>January <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[24] &#8220;Techniques et instrumentation de la neurostimulation&#8221;, <strong><em>Congr\u00e8s de biologie m\u00e9dicale<\/em><\/strong>, Trois-Rivi\u00e8res, <strong><b>2002<\/b><\/strong>.\n\n<br \/><br \/>[23] &#8220;La neurotechnologie pour r\u00e9cup\u00e9rer des fonctions humaines&#8221;, <strong><em>OIQ Lanaudi\u00e8re<\/em><\/strong>, Feb. <strong><b>2002<\/b><\/strong>.\n\n<br \/><br \/>[22] &#8220;The present and future of the artificial eye&#8221;, <strong><em>SIGGRAPH, ACM<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0October <strong><b>2001<\/b><\/strong>.\n\n<br \/><br \/>[21] \u201cMicroelectronics to Build Smart Medical Devices\u201d, <strong><em>13<\/em><\/strong><strong><em><sup>th<\/sup><\/em><\/strong><strong><em>\u00a0IEEE-ICM<\/em><\/strong>, Maroc, <strong><b>2001<\/b><\/strong>.\n\n<br \/><br \/>[20] &#8220;Biomedical Microelectronics to build smart medical devices&#8221;, <strong><em>Concordia University<\/em><\/strong>, <strong><b>2001<\/b><\/strong>.\n\n<br \/><br \/>[19] &#8220;Testability of electronic circuits dedicated to implants&#8221;, <strong><em>Panel<\/em><\/strong>, VTS, <strong><b>Montreal, <\/b><\/strong>\u00a0Canada, <strong><b>2000<\/b><\/strong>.\n\n<br \/><br \/>[18] \u201cAnalog circuit tecniques for RF applications\u00a0\u201d, <strong><em>Mitel<\/em><\/strong>, Kanata, October <strong><b>1999<\/b><\/strong>.\n\n<br \/><br \/>[17] \u201cSyst\u00e8mes d\u00e9di\u00e9s \u00e0 la r\u00e9cup\u00e9ration de fonctions neuromusculaires\u00a0\u201d, <strong><em>IEEE St-Maurice<\/em><\/strong>, <strong><b>1999<\/b><\/strong>.\n\n<br \/><br \/>[16] \u201cMicroelectronics in biomedical implantable devices\u201d, <strong><em>Lebanese American University<\/em><\/strong>, <strong><b>1997<\/b><\/strong>.\n\n<br \/><br \/>[15] \u201cR\u00e9cup\u00e9ration de fonctions sensorielles par des stimulateurs sensoriels\u201d, <strong><em>GRPR<\/em><\/strong>, 26 May <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[14] \u201cArchitectures et m\u00e9thodes de conception de PLD\u201d, Colloque <strong><em>Micro\u00e9lectron.<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[13] \u201cLes circuits logiques programmables et leurs outils de d\u00e9veloppement\u201d, <strong><em>IEEE-Poly<\/em><\/strong>, <strong><b>1993<\/b><\/strong>.\n\n<br \/><br \/>[12] \u201cImplants sensoriels d\u00e9di\u00e9s au contr\u00f4le de dysfonctions urinaires\u201d, <strong><em>GRBB<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, <strong><b>1993<\/b><\/strong>.\n\n<br \/><br \/>[11] \u201cMicroelectronics and Biomedical Instrumentation\u201d, <strong><em>IEEE-Int. Conference on Microelectronics<\/em><\/strong>, <strong><b>1993<\/b><\/strong>, p. 325-328.\n\n<br \/><br \/>[10] \u201cMixed Digital\/Analog ASIC for Neural Stimulation Applications\u201d, <strong><em>GRIAO<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, <strong><b>1992<\/b><\/strong>.\n\n<br \/><br \/>[9] \u201cApplications de la micro\u00e9lectronique aux implants sensoriels\u201d, <strong><em>Poly-Grames<\/em><\/strong>, December <strong><b>1992<\/b><\/strong>.\n\n<br \/><br \/>[8] \u201cA Multichannel Implantation Bladder Controller\u201d, <strong><em>PFIZER<\/em><\/strong><em>,<\/em>\u00a0\u00c9cole Polytechnique, June <strong><b>1992<\/b><\/strong>.\n\n<br \/><br \/>[7] \u201cStimulateurs neuromusculaires implantables\u00a0: couplage inductif et sources de courant\u201d, \u00c9cole Polytechnique de Montr\u00e9al, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, June <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[6] \u201cConception, R\u00e9alisation et tests in vivo des stimulateurs neuromusculaires implantables\u201d, \u00c9cole de Technologie Sup\u00e9rieure, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, June <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[5] \u201dNouvelle g\u00e9n\u00e9ration des stimulateurs neuromusculaires implantables\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Colloque, <strong><b>Sherbrooke, <\/b><\/strong>Canada, May <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[4] \u201cDesign, Realization and In vivo Tests of a Computerized Implantable 8Channel Bladder Stimulator\u201d, Biomedical Engineering, Universit\u00e9 McGill, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, April <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[3] \u201cR\u00e9alisation et tests in vivo des stimulateurs neuro-musculaires implantables\u201d, \u00c9cole Polytechnique, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, March <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[2] \u201cTests in vivo de la proth\u00e8se urinaire du GRAMS\u201d, G\u00e9nie \u00e9lectrique, Universit\u00e9 de Sherbrooke, October <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[1] \u201cUn aper\u00e7u sur le stimulateur cochl\u00e9aire: point de vue exp\u00e9rimental\u201d, <strong><em>COSEM Neurostim Lt\u00e9e<\/em><\/strong>, <strong><b>Montreal,<\/b><\/strong>\u00a0Canada, January <strong><b>1989<\/b><\/strong>.\n<h3>D. Patents, Books, and Book Chapters<\/h3>\n<strong><em><b><i>a) Patents: Awarded and Pending<\/i><\/b><\/em><\/strong>\n\n<br \/><br \/>[26] WU H., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cAn adjustable loss-pass filter circuit based on self &#8211; bias pseudo \u2013 resistor\u201d, CN <strong><em><b><i>115664369A<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jan.<strong><b>\u00a02023<\/b><\/strong>\n\n<br \/><br \/>[25] CHEN J., YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cAn electronic device of bionic event-driven reconfigurable analog to digital converter\u201d, <strong><em><b><i>CN115664415A<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jan. <strong><b>2023<\/b><\/strong>\n\n<br \/><br \/>[24] NOGHABAEI M., RADIN R., SAVARIA Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA High-Sensitivity Wide Input-Power-Range Ultra-Low-Power RF Energy Harvester for IoT Applications\u201d, US, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Aug.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[23] SU Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA microfluidic chip for single-cell protein analysis and preparation method thereof\u201d, China, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[22] SU Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA microfluidic chip for single cell detection and preparation method thereof\u201d, China, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[21] SU Y., XU Y., ZHANG H., TAO Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA high-sensitivity porous silicon enrichment detection sensor and its fabrication method\u201d, China, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[20] SU Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cPorous silicon sensor based on a dark field space wave and a preparation method thereof\u201d, China, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[19] LI N, YANG J., <strong><b>SAWAN M.<\/b><\/strong>, \u201cA high-voltage capacitor charging input port switching circuit and charging device\u201d, <strong><em><b><i>CN114825512A<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul. <strong><b>2022<\/b><\/strong>\n\n<br \/><br \/>[18] <strong><b>SAWAN M.<\/b><\/strong>, LI N, YANG J., \u201cA transcranial magnetic stimulation master and its driving circuit, <strong><em><b><i>CN114712716A<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul. <strong><b>2022<\/b><\/strong>\n\n<br \/><br \/>[17] SU Y., <strong><b>SAWAN M.<\/b><\/strong>, \u201cPhotonic crystal sensor and preparation method thereof\u201d, China, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[16] GHARIB, I., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cPortable Three-Dimensions (3D) Interferometric Fluorescence Microscopy\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Jul.<strong><b>\u00a02022<\/b><\/strong>.\n\n<br \/><br \/>[15] <strong><b>SAWAN, M.<\/b><\/strong>, XIA F., \u201cHypoglossal nerve stimulation system\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Sep.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[14] YANG J., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cBiosignal Processor\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Sep.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[13] BIAN S., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cA biological sensing detection system and detection method for binding antibodies\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Sep.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[12] BIAN S., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cA biological sensing detection system and detection method for neutralizing antibodies\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Sep.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[11] SU Y., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cA neurotransmitter detection device\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Aug.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[10] <strong><b>SAWAN, M.<\/b><\/strong>, SU Y., \u201cSupercapacitor plate, supercapacitor and its manufacture\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Aug.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[9] SU Y., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cA photoelectric co-detection specific binding device\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Aug.<strong><b>\u00a02021<\/b><\/strong>.\n\n<br \/><br \/>[8] ESMAEILZADEH M, AUDET Y., <strong><b>SAWAN M.<\/b><\/strong>, &#8220;Large-bandwidth High-resolution Time-Domain Comparator and Phase Frequency Detector&#8221;, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong>, Oct. <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[8] AKBARI M, <strong><b>SAWAN M.<\/b><\/strong>, &#8220;<em><i>\u00a0<\/i><\/em>Analog to Digital Conversion Device Comprising Two Cascaded Noise-Shaping Successive Approximation Register Analog-to-Digital Conversion Stages, and Related Electronic Sensors&#8221;, China Pending #202011542393.0, <strong><b>2021<\/b><\/strong>\n\n<br \/><br \/>[7] MIRBOZORGI, A., <strong><b>SAWAN, M.<\/b><\/strong>, GOSSELIN, B., \u201cSmart Multicoils Inductively-coupled Array for Wireless Power Transmission\u201d<strong><em><b><i>, <\/i><\/b><\/em><\/strong>US2016172104A1 (14\/899,949), June 2016, and PCT\/IB2014\/062595 Pending, June <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[6] <strong><b>SAWAN, M.<\/b><\/strong>, LESAGE, F., LAREAU, E., LELAN, J., \u201cMiniaturized Functional Near-InfraRed Spectrometer\u201d, <strong><em><b><i>Pending, <\/i><\/b><\/em><\/strong>Sept. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[5] HASHEMI, M., <strong><b>SAWAN, M.<\/b><\/strong>, SAVARIA, Y., \u201cHigh-power Efficiency Active Rectifier Dedicated for Implantable devices\u201d, <strong><em><b><i>Pending, <\/i><\/b><\/em><\/strong>Dec. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[4] \u00a0TARIQUS-SALAM, M., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cEpileptic seizure detection algorithm for an implantable micro-system\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>Dec. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[3] GOSSELIN, B., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cLow Power Bioamplifiers with an active DC Rejection Scheme\u201d, <strong><em><b><i>Pending, USPTO 60747723, <\/i><\/b><\/em><\/strong>May <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[2] <strong><b>SAWAN, M.<\/b><\/strong>, SALEH, A., MOUNAIM, F., ELHILALI, M., CORCOS, J., \u201cA Method and System for Estimating the Volume and the Pressure of a Bladder\u201d, <strong><em><b><i>Pending No US 60\/862549<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong>November <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[1] <strong><b>SAWAN, M.<\/b><\/strong>, BELLEMARE, F., DIDO, J., DESILETS, T., \u201cCatheter for Transdiaphragmatic Pressure and EMGdi Measurements using Helicoidal Electrodes\u201d, <strong><em><b><i>Pending<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong><strong><em><b><i>US Appl. No.: 10759375,<\/i><\/b><\/em><\/strong><strong><b>\u00a0<\/b><\/strong>Filed in Jan. <strong><b>2004<\/b><\/strong>.\n\n<strong><em><b><i>b) Patents: Awarded<\/i><\/b><\/em><\/strong>\n\n<br \/><br \/>[13] BOUALI M., <strong><b>SAWAN M.<\/b><\/strong>, AL-MAADEED S., BOURIDANE A., \u201cA Fluorescence Lifetime Spectroscopy-based Capsule Endoscopy\u201d, <strong><em><b><i>US 11607119<\/i><\/b><\/em><\/strong>, Apr.<strong><b>\u00a02023<\/b><\/strong>.\n\n<br \/><br \/>[12] RONG G., BIAN S., SU Y., LIU X., <strong><b>SAWAN M.<\/b><\/strong>,\u00a0&#8221;\u00a0Optical Biosensors and COVID-19 Virus Detection Apparatus\u00a0&#8220;, <strong><em><b><i>CN 111795948 B<\/i><\/b><\/em><\/strong>, April <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[11] RONG G., <strong><b>SAWAN M.<\/b><\/strong>, &#8220;Device and Method for Automatic Detection of Pathogens&#8221;, <strong><em><b><i>CN 112014337 B<\/i><\/b><\/em><\/strong>, April <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[10] AKBARI, M., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cAnalog-to-digital conversion device comprising two cascaded noise-shaping successive approximation register analog-to-digital conversion stages, and related electronic sensor\u201d,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong>US11152950, July <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[9] BLAQUI\u00c8RE, Y., SAVARIA, Y., BASILE-BELLAVANCE, Y., VALORGE, O., LAHKSSASSI, A., ANDR\u00c9, W., LAFLAMME-MAYER, N., BOUGATAYA, M., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cMethods, Apparatus and System to Support Large-Scale Micro-Systems\u2026.\u201d, US Patent App.13\/782,868, and WO Patent 2 012 031 362, Mar. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[8] MILED, A., ZHENG, Y., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cReconfigurable Modular Microfluidic System and Method\u201d, PCT\/CA2012\/050314, WO 2012\/155266, Nov. <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[7] MOUNAIM, F., <strong><b>SAWAN, M., <\/b><\/strong>\u201cNew sacral neurostimulation method to enhance micturition in paraplegics\u201d, <strong><em><b><i>US2011-0071590A, <\/i><\/b><\/em><\/strong>March <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[6] <strong><b>SAWAN, M.<\/b><\/strong>, HARVEY, JF., and 5 Others &#8220;Body Electronic Implant and Artificial Vision System Thereof&#8221;, <strong><em><b><i>China CN1207067C <\/i><\/b><\/em><\/strong>June <strong><b>2005<\/b><\/strong><strong><em><b><i>, USA US7027874 <\/i><\/b><\/em><\/strong>April <strong><b>2006<\/b><\/strong><strong><em><b><i>, Europe EP1333883 B1 <\/i><\/b><\/em><\/strong>August <strong><b>2006<\/b><\/strong><strong><em><b><i>, Europe EP1721633 A3 <\/i><\/b><\/em><\/strong>November <strong><b>2006<\/b><\/strong><strong><em><b><i>, Japan No 2002-542464, Canada No 2427867, Mexico No PA\/a\/2003\/004320.<\/i><\/b><\/em><\/strong>\n\n<br \/><br \/>[5] EL-SANKARY, K., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cCircuit Calibration Using Voltage Injection: Applications to Analod to digital convertors\u201d, <strong><em><b><i>WO\/2006\/092055<\/i><\/b><\/em><\/strong><strong><em><b><i>,<\/i><\/b><\/em><\/strong>\u00a0Sep. <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[4] JECKELN, E.G., GHANNOUCHI, F.M., <strong><b>SAWAN, M.<\/b><\/strong>, BEAUREGARD, F., &#8220;Adaptive Predistortion Device and Method using Digital Receiver&#8221;, <strong><em><b><i>US 7035345<\/i><\/b><\/em><\/strong>, April\u00a0<strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[3] <strong><b>SAWAN, M.<\/b><\/strong>, ELHILALI, M., &#8220;Electronic Stimulator Implant&#8221;,<strong><b>\u00a0<\/b><\/strong>European patent\u00a0<strong><em><b><i>01946797<\/i><\/b><\/em><\/strong>, <strong><b>2001<\/b><\/strong>,<strong><b>\u00a0<\/b><\/strong>Japan\u00a0<strong><em><b><i>JP2003-520653A<\/i><\/b><\/em><\/strong>, <strong><b>2003<\/b><\/strong>, Canada\u00a0<strong><em><b><i>2397957<\/i><\/b><\/em><\/strong>, <strong><b>2001<\/b><\/strong>, <strong><em><b><i>PCT\/CA01\/00074<\/i><\/b><\/em><\/strong>, <strong><b>2001<\/b><\/strong>.\n\n<br \/><br \/>[2] <strong><b>SAWAN, M.<\/b><\/strong>, ELHILALI, M., \u201cElectronic Stimulator Implant for Modulating and Synchronizing Bladder and Sphincter Function\u201d, Patent, <strong><em><b><i>US 6,393,323<\/i><\/b><\/em><\/strong>, May <strong><b>2002<\/b><\/strong>.\n\n<br \/><br \/>[1] JECKELN, E.G., GHANNOUCHI, F.M., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cAdaptive Digital Predistortion for Power Amplifiers with Real Time Modeling of Memoryless Complex Gain\u201d, <strong><em><b><i>US 6,072,364<\/i><\/b><\/em><\/strong>, June <strong><b>2000<\/b><\/strong>.\n\n<b><i><\/i><\/b><strong><em><b><i>c) Books and Book Chapters<\/i><\/b><\/em><\/strong>\n\n<strong><u><b>Books<\/b><\/u><\/strong>\n\n<br \/><br \/>[5] <strong><b>SAWAN, M.<\/b><\/strong>, \u201cHandbook of Biochips: Integrated Circuits and Systems for Biology and Medicine\u201d Handbook,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Springer<\/i><\/b><\/em><\/strong>,<em><i>\u00a0<\/i><\/em><strong><b>2022<\/b><\/strong>, 1460 pages.\n\n<br \/><br \/>[4] RADIN R.L., MACHADO M.B., <strong><b>SAWAN, M.<\/b><\/strong>, GALUP-MONTORO C., SCHNEIDER M.C., \u201cHandbook of Ultra-low Voltage Circuit Techniques for Energy Harvesting\u201d Book,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Springer<\/i><\/b><\/em><\/strong>,<em><i>\u00a0<\/i><\/em><strong><b>2022<\/b><\/strong>, 149 pages.\n\n<br \/><br \/>[3] <strong><b>SAWAN, M<\/b><\/strong>., YANG J., TARKHAN M., CHEN J., WANG\u00a0M., WANG Ch., XIA F., CHEN Y., &#8220;Emerging Trends of Biomedical Circuits and Systems&#8221;, Book, <strong><em><b><i>The essence of knowledge<\/i><\/b><\/em><\/strong>, Dec.\u00a0<strong><b>202<\/b><\/strong><strong><b>1<\/b><\/strong>, 201 pages.\n\n<br \/><br \/>[2] BHUNIA, S., MAJERUS, S., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cImplantable Biomedical Microsystems: Design Principles and Applications\u201d,<strong><em><b><i>\u00a0Elsevier<\/i><\/b><\/em><\/strong>,<em><i>\u00a0<\/i><\/em><strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[1] NADERI, A., <strong><b>SAWAN, M.<\/b><\/strong>, SAVARIA, M., \u201cUndersampling Dela-Sigma Modulators: Theory, Design and\u00a0Implementation\u201d<em><i>,<\/i><\/em><strong><em><b><i>\u00a0Lambert Academic Publishers<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Book Chapter,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>2009<\/b><\/strong>.\n\n<strong><u><b>Book Chapters<\/b><\/u><\/strong>\n\n<br \/><br \/>[19] SU Y.,<strong><b>\u00a0<\/b><\/strong><strong><b>SAWAN, M.<\/b><\/strong><strong><b>, \u201c<\/b><\/strong>Supercapacitors: Fabrication Challenges and Trends, Invited, Invited, Book chapter, to appear in <strong><em><b><i>Updates on Supercapacitors<\/i><\/b><\/em><\/strong><strong><b>, <\/b><\/strong><strong><em><b><i>IntechOpen<\/i><\/b><\/em><\/strong><strong><b>,<\/b><\/strong><strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>2022<\/b><\/strong>\n\n<br \/><br \/>[18] YANG, X., CHEN Y.-H.,<strong><b>\u00a0<\/b><\/strong><strong><b>SAWAN, M.<\/b><\/strong><strong><b>, \u201c<\/b><\/strong>Photoacoustic imaging for human brain diseases: Applications and trends\u201d,<em><i>\u00a0<\/i><\/em>Invited<em><i>, <\/i><\/em>Book chapter, to appear in<strong><b>\u00a0<\/b><\/strong><strong><em><b><i>IGI-Global, <\/i><\/b><\/em><\/strong><strong><em><b><i>Recent Advancements in Smart Remote Patient Monitoring, Wearable Devices, and Diagnostics Systems<\/i><\/b><\/em><\/strong>,<strong><em><b><i>\u00a0<\/i><\/b><\/em><\/strong><strong><b>2022<\/b><\/strong><strong><b>.<\/b><\/strong>\n\n<br \/><br \/>[17] ZHANG, H., RONG G., BIAN S., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cLab-on-Chip Microsystems for <em><i>Ex Vivo <\/i><\/em>Network of Neurons Studies: A Review\u201d,<em><i>\u00a0<\/i><\/em>Invited<em><i>, <\/i><\/em>Book chapter in <strong><em><b><i>Prime Archives in Biotechnology<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Videleaf<\/i><\/b><\/em><\/strong>,<em><i>\u00a0<\/i><\/em><strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[16] CHEN, Y.-H., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cMonitoring Brain Activities using fNIRS to Avoid Stroke\u201d,<em><i>\u00a0<\/i><\/em>Invited, Book Chapter, <strong><em><b><i>in Infrared Spectroscopy &#8211; Perspectives and Applications,<\/i><\/b><\/em><\/strong>\u00a0<strong><em><b><i>IntechOpen<\/i><\/b><\/em><\/strong>,<em><i>\u00a0<\/i><\/em><strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[15] MONTAZERI, L., WANG C., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cVision: Optogenetics Addressing AMD Diseases\u201d, Invited, Book Chapter, <strong><em><b><i>Springer<\/i><\/b><\/em><\/strong>, <strong><b>2022<\/b><\/strong>.\n\n<br \/><br \/>[14] RONG, G., BIAN, S., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cPorous Silicon Based Biosensors: Technology, Devices, and Applications\u201d, Invited, Book Chapter, <strong><em><b><i>Springer<\/i><\/b><\/em><\/strong>, <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[13] KASSAB, A., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cThe NIRS Cap: Key Part of Emerging Wearable Brain-Device Interfaces\u201d, Book Chapter, <strong><em><b><i>Chemometrics and Near-Infrared Spectroscopy<\/i><\/b><\/em><\/strong>, <strong><em><b><i>Intech Open Science<\/i><\/b><\/em><\/strong>, ISBN 978-953-51-4953-8, <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[12] TRIGUI, A., MEHRI, S., AMMARI, A., BENHADJSLAMA, J.,<strong><b>\u00a0SAWAN, M.<\/b><\/strong>, \u201cProsthetic Power Supplies\u201d, Invited publication, <strong><em><b><i>Encyclopedia of Electrical and Electronics Engineering<\/i><\/b><\/em><\/strong>, Book Chapter, John Wiley &amp; Sons, <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[11] NABOVATI, G., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cCapacitive Sensor Arrays\u201d, Invited publication, <strong><em><b><i>Encyclopedia of Electrical and Electronics Engineering<\/i><\/b><\/em><\/strong>, Book Chapter, John Wiley &amp; Sons, <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[10] MILED, A., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cBrain-machine Interfaces for cell manipulation and detection\u201d, Book Chapter, Bioelectronics, <strong><em><b><i>Cambridge University Press<\/i><\/b><\/em><\/strong>, <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[9] TARIQUS-SALAM M., <strong><b>SAWAN, M.<\/b><\/strong>, &#8220;EEG recording device for epileptogenic zone localization&#8221;, Book Chapter,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Principles and Applications of Biomedical Engineering, Academy Publish,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[8] LESAGE, F.,<strong><b>\u00a0SAWAN, M.<\/b><\/strong>, KAMRANI, E., \u201cNear-Infrared Light Detection using CMOS Silicon Avalanche Photodiodes (SiAPDs),\u201d Book Chapter\u00a0in <em><i>The Wonder of Nanotechnology: Quantum Optoelectronic Devices and Applications<\/i><\/em>, Razeghi et al, <strong><em><b><i>SPIE Press, Bellingham<\/i><\/b><\/em><\/strong>, pp. 491-531, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[7] GOSSELIN, B., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cEmbedded Medical Microsystems: Neural recording implants\u201d,<strong><b>\u00a0<\/b><\/strong>Design Technology for<strong><b>\u00a0<\/b><\/strong>Heterogeneous Embedded Systems: Design Theory and Practice\u201d, Heausgeber et al, Book Chapter,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Springer Netherlands<\/i><\/b><\/em><\/strong>, 480 p., <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[6] MOUNAIM, F., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cNew Neurostimulation Strategy and Corresponding Integrated Circuits to Enhance Bladder Functions\u201d, Book Chapter,<em><i>\u00a0<\/i><\/em><strong><em><b><i>Intech, <\/i><\/b><\/em><\/strong><em><i>Jan. <\/i><\/em><strong><b>2011<\/b><\/strong>, pp. 79-92.\n\n<br \/><br \/>[5] GHAFAR-ZADEH, E., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cCMOS Capacitive Sensors for Lab-On-Chip Applications\u201d, <em><i>Book<\/i><\/em><strong><em><b><i>,\u00a0Springer Editor<\/i><\/b><\/em><\/strong>, <strong><b>2010<\/b><\/strong>, 250p.\n\n<br \/><br \/>[4] <strong><b>SAWAN, M.<\/b><\/strong>, GOSSELIN, B., \u201cEmbedded Medical Microsystems<strong><b>: <\/b><\/strong><em><i>Neural recording implants<\/i><\/em>\u201d,\u00a0VLSI Circuit Design for Biomedical Applications, <em><i>Book Chapter,<\/i><\/em><strong><em><b><i>\u00a0Angus and Robertson<\/i><\/b><\/em><\/strong>, <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[3] <strong><b>SAWAN, M.<\/b><\/strong>, \u201cL\u2019Homme r\u00e9par\u00e9 : succ\u00e8s et limites de l\u2019implantologie\u201d, <em><i>Book Chapter,<\/i><\/em><strong><em><b><i>\u00a0Guidon R., Laval Uni.,<\/i><\/b><\/em><\/strong>\u00a0<strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[2] MOUINE, J., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cAuditory Aids\u201d, Invited publication, <strong><em><b><i>Encyclopedia of Electrical and Electronics Engineering<\/i><\/b><\/em><\/strong>, Book Chapter, John Wiley &amp; Sons, <strong><b>1998<\/b><\/strong>, p. 651-660.\n\n<br \/><br \/>[1] DJEMOUAI, A., <strong><b>SAWAN, M.<\/b><\/strong>, \u201cProsthetic Power Supplies\u201d, Invited publication, <strong><em><b><i>Encyclopedia of Electrical and Electronics Engineering<\/i><\/b><\/em><\/strong>, Book Chapter, John Wiley &amp; Sons, <strong><b>1998<\/b><\/strong>, p. 413-420.\n<h3>E.\u00a0Refereed Abstracts and Posters<\/h3>\n<br \/><br \/>[116] BIAN S., TAO Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cRapid biosensing carbamazepine in human serum of epileptic patients\u201d,\u00a0<strong><em><b><i>IEEE-PIERS<\/i><\/b><\/em><\/strong>, Hangzhou, China, <strong><b>2021<\/b><\/strong>.\n\n<br \/><br \/>[115] RONG G., BIAN S., LIU X., SU Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA Label-free Optical Biosensor for Onsite COVID-19 Detection\u201d,\u00a0<strong><em><b><i>IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[114] MONTAZERI L., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cOptogenetic Approach to Retinal Vision Restoration for AMD Patients\u201d,<strong><em><b><i>\u00a0IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[113] HASHEMI NOSHAR F, <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cNeural Recording Implants and the Challenges Ahead\u201d,<strong><em><b><i>\u00a0IEEE-EMBC<\/i><\/b><\/em><\/strong>, Virtual, Montreal, <strong><b>2020<\/b><\/strong>.\n\n<br \/><br \/>[112] GAGLIANO L., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.,<\/b><\/strong><em><i>\u00a0<\/i><\/em>\u201cClassification of epileptic brain states based on bispectrm-extracted features\u201d,\u00a0<strong><em><b><i>Canadian League Against Epilepsy Annual Scientific Meeting<\/i><\/b><\/em><\/strong>\u00a0(CLAE), Winnipeg, Canada, <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[111] ELSAYEGH B., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0DUMOULIN C., \u201cThe State of Pelvic Floor Muscle Dynamometry: A Critical Literature Review\u201d, <strong><em><b><i>Int\u2019l Continence Society Annual Meeeting<\/i><\/b><\/em><\/strong>, Gothenburg, Sweden, Sep <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[110] GAGLIANO L., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.,<\/b><\/strong><em><i>\u00a0<\/i><\/em>&#8220;Bispectrum analysis of iEEG: A new biomarker for seizure activity&#8221; <strong><em><b><i>International Conference on Technology and Analysis of Seizures<\/i><\/b><\/em><\/strong>, University Exeter, UK, <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[109] GAGLIANO L., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.,<\/b><\/strong><em><i>\u00a0<\/i><\/em>&#8220;Comparing MLP and LSTM neural networks for seizure prediction based on bispectrum analysis&#8221;, <strong><em><b><i>Montreal Artificial Intelligence &amp; Neuroscience<\/i><\/b><\/em><\/strong>\u00a0(MAIN), Montreal, Canada, <strong><b>2019<\/b><\/strong>.\n\n<br \/><br \/>[108] GAGLIANO L., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Preictal iEEG classification by means of higher order spectra and recurrent neural networks&#8221;, <strong><em><b><i>INNOVE ACTION<\/i><\/b><\/em><\/strong>, University of Montreal Hospital Center, Montreal, QC, Canada, <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[107] GAGLIANO L., BOU ASSI E., NGUYEN D.K., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Seizure forecasting by means of bispectrum analysis in canine epilepsy&#8221;, Canadian League Against Epilepsy Scientific Meeting (CLAE), St. John\u2019s, NL, Canada, <strong><b>2018<\/b><\/strong>.\n\n<br \/><br \/>[106] ALI M., SHAWKEY H., ZEKRY A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cFully-Integrated FM-UWB Transmitter for WBAN Applications\u201d, Poster, <strong><em><b><i>ReSMiQ Workshop<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[105] GAGLIANO L., BOU ASSI E., NGUYEN D.K., RIHANA S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Bilateral preictal signature of phase-amplitude coupling in canine epilepsy&#8221;, International Conference on Technology and Analysis of Seizures (ICTALS), Minneapolis, MN, USA, <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[104] ALI M., SHAWKEY H., ZEKRY A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cFully-Integrated FM-UWB Transmitter for WBAN Applications\u201d, Poster, <strong><em><b><i>ReSMiQ Workshop<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[103] SAHA S., LESAGE F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cOn-Chip Integrated Near Infra-Red Spectroscopy (NIRS) Module\u201d. Poster, <strong><em><b><i>ReSMiQ Workshop<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>\n\n<br \/><br \/>[102] HASSAN A., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cFeasibility of wireless power and data transmissions in harsh environment applications\u201d. Poster, <strong><em><b><i>ReSMiQ Workshop<\/i><\/b><\/em><\/strong>, Montreal, Canada, May <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[101] MAGHSOUDLOO E., RESAEI M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0GOSSELIN B., \u201cA High-Speed and Ultra Low- Power Subthreshold Signal Level Shifter\u201d, Poster, <strong><em><b><i>ReSMiQ Workshop<\/i><\/b><\/em><\/strong>, Montreal, Canada, May <strong><b>2017<\/b><\/strong>\n\n<br \/><br \/>[100] HASSAN A., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cWireless Power and Data Transmissions in Harsh Environment Applications\u201d. Poster, <strong><em><b><i>FETCH<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>\n\n<br \/><br \/>[99] ALI M., SHAWKEY H., ZEKRY A., <strong><b>SAWAN M., <\/b><\/strong>\u201cFM-UWB Transmitter for Body Area Networks\u201d, Poster, <strong><em><b><i>FETCH<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[98] SAHA S., LESAGE F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cOn-Chip Zero Distance Source-Detector module for Near Infrared Spectroscopy (NIRS)\u201d. Poster, <strong><em><b><i>FETCH<\/i><\/b><\/em><\/strong>, Montreal, Canada, January <strong><b>2017<\/b><\/strong>\n\n<br \/><br \/>[97] WUTHIBENJAPHONCHAI N., HARUTA M., NODA T., SASAGAWA K., TOKUDA T., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0OHTA J., \u201cCMOS-Based Optical Energy Harvesting Circuit for Medical and IoT Devices\u201d, Poster, <strong><em><b><i>IEEE EMBC<\/i><\/b><\/em><\/strong>, Jeju, Korea, <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[96] HASSAN A., TRIGUI A., ALI M., HACHED S., SAVARIA Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cStability of GAN150-Based HEMT in High Temperature Up to 400<sup>o<\/sup>C\u201d, <strong><em><b><i>IEEE-NEWCAS<\/i><\/b><\/em><\/strong>, Poster, Strasbourg, France, June <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[95] YAN Z., MOHAMED A., WANG G., CUI D., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cLow-Noise 8-Channels Chopper-Stabilized EEG Acquisition System\u201d, <strong><em><b><i>IEEE Neural Engineering Conference<\/i><\/b><\/em><\/strong>, Poster, Shanghai, China, May <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[94] ATEF A., MOHAMED A., ABBAS M., ELSAYED-ESAM K., CUI D., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0WANG G., \u201cWide Dynamic Range Integrated Optical Receiver for Near Infrared Spectroscopy\u201d, <strong><em><b><i>IEEE Neural Engineering Conference<\/i><\/b><\/em><\/strong>, Poster, Shanghai, China, May <strong><b>2017<\/b><\/strong>.\n\n<br \/><br \/>[93] TRIGUI, A., HASSAN, A., SAVARIA, Y., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cQuadrature Carrier Width Modulation Demodulator for Micro-Implants\u201d, <strong><em>ReSMiQ Workshop, <\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[92] LI, N., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cA High-Efficiency Digital Signal Processing System Using Compressed Sensing Technique for Neural Recording Devices\u201d, <strong><em>ReSMiQ Workshop, <\/em><\/strong>Montreal, Canada, May <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[91] FARTOUMI, S., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0EMERIAUD, G., &#8220;Real time diagnostic of cerebral status in traumatic brain injury using neuro-fuzzy networks\u00a0&#8220;, <strong><em>Euroneuro Congress<\/em><\/strong>, Barcelona, April <strong><b>2016<\/b><\/strong>.\n\n<br \/><br \/>[90] BOUASSI, E., RIHANA, S., NGUYEN, D.K., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Dimensionality Reduction in Seizure Prediction Studies&#8221;, <strong><em>AES<\/em><\/strong>, Pennsilvania, Dec <strong><b>2015<\/b><\/strong>.\n\n<br \/><br \/>[89] PENG, K., NGUYEN, D.K., TAYAH, T., VANNASING, P., TREMPLAY, J., M. <strong><b>SAWAN M.,<\/b><\/strong>\u00a0LESAGE, F., POULIOT, P., &#8220;Modeling channel-specific hemodynamic response function in epilepsy with EEG-fNIRS data&#8221;, <strong><em>AES<\/em><\/strong>, Seattle, Dec <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[88] PENG, K., NGUYEN, D.K., LE LAN, J., DUPUY, O., KASSAB, A., FRASER, A., BHERER, L., M. <strong><b>SAWAN M.,<\/b><\/strong>\u00a0LESAGE, F., POULIOT, P., &#8220;Modeling specific hemodynamic response function in fNIRS&#8221;, <strong><em>fNIRS<\/em><\/strong>, Montreal, Sept <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[87] DEHBOZORGI, M., POULIOT, P., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Robust pre-clinical software system for real time monitoring of NIRS and EEG&#8221;, <strong><em>fNIRS<\/em><\/strong>, Montreal, Sept <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[86] ARFAOUI, N., POULIOT P., LE LAN, J., SIMARD, V., CHARLEBOIS-CLOUTIER, E., FRASER, A., BHERER, L., LESAGE, F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Using ICA and accelerometers to remove motion artifacts in NIRS data acquired on moving subjects&#8221;, <strong><em>fNIRS<\/em><\/strong>, Montreal, Sept <strong><b>2014<\/b><\/strong>.\n\n<br \/><br \/>[85] PENG, K., TAYAH, T., VANNASING, P., TREMBLAY, J., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0LESAGE, F., NGUYEN, D.K., POULIOT, P., &#8220;Sensitivity and specificity in continuous fNIRS-EEG: A spike-focused study on 40 patients with focal epilepsy&#8221;, <strong><em>30th International Epilepsy Congress<\/em><\/strong>, Montreal, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[84] KAMRANI, E., FOROUSHANI, A., VAZIRIPOUR, M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Monitoring and Controlling of the Human Brain Dynamics&#8221;, <strong><em>29th Southern Biomedical Engineering Conference (SBEC),<\/em><\/strong>\u00a0Miami, USA, May 3-5, <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[83] KROUCHEV, N., HASANUZAMAN, M., GHANE-MOTLAGH, B., VINET, A., RAUT, R., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Centuries of functional electrical stimulation (FES) &#8211; lessons learned toward biocompatible and efficient brain microstimulation\u00a0&#8220;, <strong><em>10e Journ\u00e9e scientifique, OEil, cerveau et vision du GRSV,<\/em><\/strong>\u00a0Montr\u00e9al, Quebec, March <strong><b>2013<\/b><\/strong>.\n\n<br \/><br \/>[82] KAMRANI, E., LESAGE, F., <strong><b>SAWAN M., <\/b><\/strong>&#8220;Fully Integrated Near Infra-Red Photodetector for Real-time Wireless Brain Imaging&#8221;, Poster, <strong><em>MIOMD-XI: 11th International Conference on Infrared Optoelectronics-Materials and Devices<\/em><\/strong>, Chicago, IL, USA, 4 &#8211; 8 September <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[81] KAMRANI, E., LESAGE, F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Design and Implementation of an Integrated Functional Near Infra-Red Spectroscopy Photoreceiver for Real-Time Brain Monitoring&#8221;, Best Poster Award, <strong><em>ReSMiQ symposium on Microsystems and networking<\/em><\/strong>, 80<sup>th<\/sup>\u00a0ACFAS conference, Montr\u00e9al, May 7, <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[80] KAMRANI, E., LESAGE, F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Real-time Wireless Brain Imaging using a Fully Integrated Phototransceiver&#8221;, Poster, <strong><em>Journ\u00e9e de la recherche, Ecole Polytechnique<\/em><\/strong>, Montr\u00e9al, May 23-24, <strong><b>2012<\/b><\/strong>.\n\n<br \/><br \/>[79] DESGENT, S., SANON, N., DUSS, S., BILODEAU, G.A., TARIQUS-SALAM, M., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0CARMANT, L., \u201cPostnatal Stress Alters Hyperthermic Seizure Patterns in a Dual Pathology Rat Model of Epileptogenesis\u201d, <strong><em>American Epilepsy Meeting, <\/em><\/strong>Boston, Dec. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[78] NGUYEN, D., TARIQUS-SALAM, M., DESGENT, S., DUSS, S., CARMANT, L., BOUTHILLIER, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cSubdural Porous and Notched Mini Grid Electrodes for Intracranial Electroencephalographic Recordings\u201d, <strong><em>American Epilepsy Meeting, <\/em><\/strong>Boston, Dec. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[77] TARIQUS-SALAM, M., HAMI\u00c9, A., NGUYEN, D., <strong><b>SAWAN M.,<\/b><\/strong><strong>\u00a0<\/strong>\u201cA Low Power Implantable Responsive Focal Drug Delivery System\u201d,<strong>\u00a0<\/strong><strong><em>American Epilepsy Meeting, <\/em><\/strong>Boston, Dec. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[76] KESTENS, Y., GAUVIN, L., THERIAULT, M., BARNETT, T., DANIEL, M., A CHEVALIER, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cPeople-Place Interactions and Healthy Aging: Contributions of a Novel Multisensor Device\u201d, The 64<sup>th<\/sup>\u00a0Gerontologist Society of America Annual Scientific Meeting, Boston, USA, Nov. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[75] MILED, M.A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;\u00c9tude, mod\u00e9lisation et validation des micro\u00e9lectrodes pour des structures Lab sur puce&#8221;, ACFAS, May <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[74] MILED, M.A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0&#8220;Capteur implantable bas\u00e9 sur LSP d\u00e9di\u00e9 \u00e0 la d\u00e9tection cellulaire par di\u00e9lectrophor\u00e8se &#8220;, Fetch, Jan. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[73] MILED, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cCapteur implantable bas\u00e9 sur LSP d\u00e9di\u00e9 \u00e0 la d\u00e9tection cellulaire par di\u00e9lectrophor\u00e8se\u201d, <strong><em>Fetch Workshop<\/em><\/strong><em>, <\/em>Quebec, Jan. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[72] MOUNAIM, F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cNeurostimulateur hautement int\u00e9gr\u00e9 et nouvelle strat\u00e9gie de stimulation pour am\u00e9liorer la miction chez les parapl\u00e9giques\u201d, <strong><em>Fetch Workshop, <\/em><\/strong>Quebec, Jan. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[71] LAREAU, E., LESAGE F., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cSyst\u00e8me h\u00e9t\u00e9rog\u00e8ne portable d\u00e9di\u00e9 \u00e0 l\u2019imagerie c\u00e9r\u00e9brale fonctionnelle portable bimodalit\u00e9e\u201d, <strong><em>Fetch Workshop, <\/em><\/strong>Quebec, Jan. <strong><b>2011<\/b><\/strong>.\n\n<br \/><br \/>[70] MILED, A., <strong><b>SAWAN M.,<\/b><\/strong>\u00a0\u201cLoC Dielectrophoresis &#8211; Based Implantable Device Dedicated for Cells Manipulation and Detection\u201d, <strong><em>CMC Microsystems Meeting<\/em><\/strong><em>, <\/em>Ottawa, Oct. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[69] TARIQUS-SALAM, M., MOUNAIM, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D., \u201cA Closed-Loop Implantable Device for Epileptic Seizure Detection and Neurostimulation\u201d, <strong><em>American Epilepsy Meeting, <\/em><\/strong>Texas, USA, Dec. <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[68] MILED, M.A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;LoC Dielectrophoresis &#8211; Based Implantable Device Dedicated for Cells Manipulation and Detection&#8221;, CMC Texpo, <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[67] POULIOT, P., TREMBLAY, J., ROBERT, M., VANNASING, P., LEPORE, F., LASSONDE, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D.K., LESAGE, F., <em>Multimodal analysis of nonlinear hemodynamic responses in human epilepsy<\/em>, Society for Neuroscience, San Diego, <strong><b>2010<\/b><\/strong>.\n\n<br \/><br \/>[66] TARIQUS-SALAM, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0et al., \u201cLow-Voltage Fast-Activity Epileptic Seizure Detector\u201d, <strong><em>Canadian Epilepsy Meeting, <\/em><\/strong>Saskatoon, Canada, November <strong><b>2009<\/b><\/strong>.\n\n<br \/><br \/>[65] MILED, M.A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Implantable Microsystems Dedicated for Neural Cells Separation and Detection&#8221;, NAMIS 2008, Automn School, Tokyo, Japan Sept-Oct\u00a0<strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[64] TARIQUS-SALAM, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0NGUYEN, D., HAMOUI, A. \u201cBiomedical Implantable Micro-device for Epilepsy Treatment\u201d, <strong><em>NAMIS<\/em><\/strong>, Montreal, August <strong><b>2008<\/b><\/strong>.\n\n<br \/><br \/>[63] GHAFER-ZADEH, E., R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0THERRIAULT, D., \u201cA Hybrid IC\/Microfluidic Sensor for Lab-on-Chips\u201d, <strong><em>CMC Microsystems Annual Workshop<\/em><\/strong>, Montreal, August <strong><b>2007<\/b><\/strong>.\n\n<br \/><br \/>[62] GHAFER-ZADEH, E., R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0THERRIAULT, D., \u201cA New Approach for the Integration of Microfluidic Structures to Microelectronic Devices\u201d, <strong><em>CMC Microsystems Annual Workshop<\/em><\/strong>, Ottawa, October <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[61] VEILLEUX, N., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cMod\u00e9lisation et caract\u00e9risation d\u2019une architecture g\u00e9n\u00e9rique de syst\u00e8mes ultrasoniques portable\u201d, <strong><em>AITS<\/em><\/strong>, Montreal, March <strong><b>2006<\/b><\/strong>.\n\n<br \/><br \/>[60] CHEBLI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHVCMOS DC-DC Converter Dedicated for Ultrasonic Transducer\u201d, <strong><em>Micronet Annual Workshop<\/em><\/strong>, Ottawa, May <strong><b>2005<\/b><\/strong>.\n\n<br \/><br \/>[59] DESILETS, T., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0BELLEMARE, F., \u201cNouveau Catheter oesophagien sans fil d\u00e9di\u00e9 au diagnostic de dysfonctions respiratoires\u201d, <strong><em>AITS<\/em><\/strong>, Montreal, May <strong><b>2005<\/b><\/strong>\n\n<br \/><br \/>[58] HUANG, Z., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDynamically Controlled HVCMOS Low-Power Level-up Shifter\u201d, <strong><em>Micronet Annual Workshop<\/em><\/strong>, Toronto, April <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[57] CHEBLI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHVCMOS DC-DC Converter Dedicated for Ultrasonic Transducer\u201d, <strong><em>Micronet Annual Workshop<\/em><\/strong>, Toronto, April <strong><b>2004<\/b><\/strong>.\n\n<br \/><br \/>[56] KASSEM, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cEfficient Pipelined Architecture of an Ultrasonic Digital Beamforming Interface\u201d, <strong><em>Micronet Annual Workshop<\/em><\/strong>, <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[55] CARNIGUAIN, S., COULOMBE, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNew Scanning Terchnique for the Power Management of Pixel Array\u201d, <strong><em>MR&amp;DCAN,<\/em><\/strong>\u00a0Montreal, June <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[54] BUFFONI, L.-X., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAn Image Processing System Dedicated to Cortical Visual Stimulators\u201d, <strong><em>MR&amp;DCAN,<\/em><\/strong>\u00a0Montreal, June <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[53] COULOMBE, J., <strong><b>SAWAN, M., <\/b><\/strong>\u201cPrototype de l\u2019implant visuel\u201d, <strong><em>MR&amp;DCAN,<\/em><\/strong>\u00a0Montreal, June <strong><b>2003<\/b><\/strong>.\n\n<br \/><br \/>[52] COULOMBE, J., HARVEY, JF., ROY, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Prototype de l&#8217;implant visuel&#8221;, <strong><em>MR&amp;DCAN<\/em><\/strong><strong>, <\/strong>June 2000.\n\n<br \/><br \/>[51] ABDEL-KARIM, A.M., ABDEL-GAWAD, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0et ELHILALI, M.M., &#8220;Neurostimulation of the Sacral Nerve Roots for Treament of Bladder Dysfunction of Paraplegics&#8221;, <strong><em>1<\/em><\/strong><strong><em><sup>st<\/sup><\/em><\/strong><strong><em>\u00a0Annual McGill Biomedical Graduate Conference<\/em><\/strong>, Montreal, QC, February <strong><b>2001<\/b><\/strong>.\n\n<br \/><br \/>[50] DJEMOUAI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;An FLL Based RF Inductive Link with Automatic Control of Power Transfer and Data Transmission&#8221;, <strong><em>Micronet Annual Workshop<\/em><\/strong><strong>, <\/strong>April <strong><b>2000<\/b><\/strong>.\n\n<br \/><br \/>[49] FAYOMI, C., ROBERTS, G., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0&#8220;Low-Power Low-Voltage High- Speed CMOS Differential Track and Latch Comparator with Rail-to-rail Input&#8221;, <strong><em>Micronet Annual Workshop<\/em><\/strong><strong>, <\/strong>April <strong><b>2000<\/b><\/strong>.\n\n<br \/><br \/>[48] BEAUCHAMP-PARENT, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNew Reconfigurable Ultrasonic Enuresis Monitoring System\u201d, <strong><em>AQFIM<\/em><\/strong>, June <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[47] BRAIS, L.-P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAdaptive Filtering Using Field Programmable Devices\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[46] EL-HASSAN, F., SAVARIA, Y., KHALI, H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHardware\/Software Architecture of a Viterbi Decoder\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[45] DJEMOUAI, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SLAMANI, M., \u201cHigh Performance Integrated CMOS Frequency-to-Voltage Converter\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[44] VOGHELL, J.C., BOURRET, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cHigh Resolution and Low Area DAC Dedicated to Programmable Current-Source\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[43] HARVEY, J.-F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cIntegrated External Controller Dedicated to a Visual Implant\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[42] FOUZAR, Y., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0SAVARIA, Y., \u201cA BiCMOS Wide-Lock Range Fully Integrated PLL\u00a0\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[41] CANTIN, L.-P.,\u00a0<strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUniversal Sensor Interface\u201d, <strong><em>GRIAO Research Review<\/em><\/strong>, Montreal, May 1998.\n\n<br \/><br \/>[40] SAWAN, M., CANTIN, L.-P., HARB, A, OUICI, K., ASSI, A., \u201cCMOS Analog Building Blocks Dedicated to Sensor\u2019s Interfaces\u201d, <strong><em>Micronet Annual Workshop<\/em><\/strong>, Ottawa, April <strong><b>1998<\/b><\/strong>.\n\n<br \/><br \/>[39] TU, L.M., SHAKER, H.S., ROBIN, S., <strong><b>SAWAN, M.,<\/b><\/strong><strong><b>\u00a0<\/b><\/strong>et al., \u201cSelective Sacral High Frequency Blockade to Reduce Bladder Outlet Resistance in Dogs: An Acute Study\u201d, <strong><em>American Urological Association Meeting<\/em><\/strong>, <strong><b>1997<\/b><\/strong>.\n\n<br \/><br \/>[38] ROBIN, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cStimulateur neuromusculaire implantable\u201d, <strong><em>Association qu\u00e9b\u00e9coise des fabricants de l&#8217;industrie m\u00e9dicale<\/em><\/strong>, October <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[37] HARVEY, J.F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cAcquisition et traitement d&#8217;images d\u00e9di\u00e9es \u00e0 un implant visuel\u201d, <strong><em>Association qu\u00e9b\u00e9coise des fabricants de l&#8217;industrie m\u00e9dicale<\/em><\/strong>, October <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[36] PETRICAN, P., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConception et r\u00e9alisation d&#8217;un appareil ultrasonique miniaturis\u00e9 d\u00e9di\u00e9 \u00e0 l&#8217;\u00e9valuation du volume de la vessie\u201d, <strong><em>Asso. Qu\u00e9b\u00e9coise des fabricants de l&#8217;industrie m\u00e9dicale<\/em><\/strong>, October 1996.\n\n<br \/><br \/>[35] ROBIN, S., PROVOST, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cA Complete Neuromuscular Stimulation System Based on FPGA Technology\u201d, <strong><em>CMC&#8217;96<\/em><\/strong>, Ottawa, June <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[34] FAYOMI, C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cArchitecture parall\u00e8le d&#8217;une formulation simplifi\u00e9e du filtre de Kalman\u201d, <strong><em>64<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Montreal, May <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[33] PROVOST, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConception et r\u00e9alisation d&#8217;un microcircuit implantable pour la mesure du volume v\u00e9sical\u201d, <strong><em>64<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Montreal, May <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[32] HARB, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0HAROUN, B., \u201cConvertisseur analogique\/num\u00e9rique \u00e0 haute r\u00e9solution d\u00e9di\u00e9 \u00e0 des capteurs sensoriels implantables\u201d, <strong><em>64<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Montreal, May <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[31] FIERRO, L.B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cT\u00e9l\u00e9commande miniaturis\u00e9e d&#8217;un stimulateur neuromusculaire implantable\u201d, <strong><em>64<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Montreal, May <strong><b>1996<\/b><\/strong>.\n\n<br \/><br \/>[30] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0ST-AMAND, R., SAVARIA, Y., \u201cBiphasic Programmable Current-Sources for Implantable Miniaturized Stimulators\u201d, <strong><em>Biomedical Eng. Society, Annual Meeting<\/em><\/strong>, Boston, October <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[29] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0ARABI, K., HASSOUNA, M., ELHILALI, M., \u201cNew Generation of Microstimulators Dedicated to Bladder Control\u201d, <strong><em>Society for Urology and Engineering<\/em><\/strong>, Las Vegas, April <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[28] BOYER, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConception et r\u00e9alisation d&#8217;un d\u00e9multiplexeur analogique d\u00e9di\u00e9 \u00e0 un microstimulateur visuel implantable\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[27] PROVOST, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConception d&#8217;un pr\u00e9amplificateur programmable \u00e0 basse tension d&#8217;alimentation pour capteurs implantables\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[26] FAYOMI, C., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0BENNIS, S., \u201cApproche multivariable de pr\u00e9diction de s\u00e9ries lin\u00e9aires en utilisant le r\u00e9seau adaline et la technique du filtre de Kalman\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[25] ARABI, K., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cModule du g\u00e9n\u00e9rateur des signaux programmables d&#8217;un microstimulateur destin\u00e9 aux dysfonctionnements v\u00e9sicaux\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[24] BARADA, H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0van der PUIJE, P.D., et al., \u201cInterfaces neuro\u00e9lectroniques et tests in-vivo d\u00e9di\u00e9s au contr\u00f4le de dysfonctions urinaires\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[23] HARB, A., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0ZHU, J., \u201cR\u00e9cepteur transcutan\u00e9 implantable pour des applications biom\u00e9dicales\u201d, <strong><em>63<\/em><\/strong><strong><em><sup>e<\/sup><\/em><\/strong><strong><em>\u00a0Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Chicoutimi, <strong><b>1995<\/b><\/strong>.\n\n<br \/><br \/>[22] ARABI, K., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cMicrostimulateur implantable destin\u00e9 \u00e0 la r\u00e9cup\u00e9ration de dysfonctions urinaires\u201d, <strong><em>Congr\u00e8s de l&#8217;AQFIM<\/em><\/strong>, Montreal, November <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[21] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., HASSOUNA, M., ELHILALI, M.M., \u201cStimulation \u00e9lectrique pour r\u00e9cup\u00e9rer les fonctions v\u00e9sicales\u201d, <strong><em>Congr\u00e8s de l&#8217;AQFIM<\/em><\/strong>, Montreal, November <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[20] BARADA, H., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0van der PUIJE, P.D., HASSOUNA, M., ELHILALI, M.M., \u201cStimulateur percutan\u00e9, interfaces neuro\u00e9lectroniques et tests in-vivo d\u00e9di\u00e9s au contr\u00f4le de dysfonctions v\u00e9sico-sphinct\u00e9riennes\u201d, <strong><em>Congr\u00e8s de l&#8217;AQFIM<\/em><\/strong>, Montreal, November <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[19] PROVOST, B., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cMoniteur versatible et invisible \u00e0 l&#8217;usager pour compte-gouttes miniature\u201d, <strong><em>Congr\u00e8s de l&#8217;AQFIM<\/em><\/strong>, Montreal, November <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[18] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0HASSOUNA, M., ELHILALI, M.M., \u201cHigh Frequency Stimulation to Fatigue the Sphincter for Total Bladder Evacuation\u201d, <strong><em>10th Annual Spinal Cord Research Symposium<\/em><\/strong>, Montreal, October <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[17] ARABI, K., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cDesign of an Implantable Neuromuscular Prosthesis Dedicated to Bladder Dysfunctions\u201d, <strong><em>10th Annual Spinal Cord Research Symposium<\/em><\/strong>, Montreal, October <strong><b>1994<\/b><\/strong>.\n\n<br \/><br \/>[16] LI, J.S., HASSOUNA, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., et al., \u201cReturn of Detrusor Activity after Spinal Shock using Stimulation: A Possible Mecanism of Action\u201d,<strong><em>\u00a0AUA Meeting<\/em><\/strong>, Toronto, June <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[15] LI, J.S., HASSOUNA, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., ELHILALI, M.M., \u201cModulation of Sphincter Resistance during Voiding by Electrical Stimulation\u201d,<strong><em>\u00a0American Urological Association<\/em><\/strong>, Toronto, June <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[14] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cNouvelle g\u00e9n\u00e9ration des stimulateurs neuromusculaires implantables\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Sherbrooke, May <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[13] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., ELHILALI, M.M., HASSOUNA, M., \u201cContr\u00f4leur versatile pour un stimulateur nerveux autonome\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Sherbrooke, May <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[12] WEI, M., DUVAL, F., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0MOUINE, J., POURMEHDI, S., \u201cA Versatile Design of the Output Stage for a Multichannel Pain Controller\u201d, <strong><em>CMC91 Workshop<\/em><\/strong>, Kingston, May <strong><b>1991<\/b><\/strong>.\n\n<br \/><br \/>[11] MOUINE, J., DUVAL, F., POURMEHDI, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUn implant cochl\u00e9aire \u00e0 huit canaux compl\u00e8tement programmable\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[10] LACHANCE, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0POURMEHDI, S., DUVAL, F., \u201cUne t\u00e9l\u00e9commande portative pour un implant urinaire\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[9] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., HASSOUNA, M., ELHILALI, M.M., POURMEHDI, S., MOUINE, J., \u201cContr\u00f4le par microordinateur d&#8217;un implant urinaire multicanal\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[8] POURMEHDI, S., DUVAL, F., MABILLEAU, P., MOUINE, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cCodage en temps r\u00e9el du signal de la parole pour une proth\u00e8se auditive\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[7] LECLAIR, M., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cConception des nouvelles \u00e9lectrodes biocompatibles\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[6] MOUINE, J., DUVAL, F., POURMEHDI, S., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cConception d&#8217;une puce d\u00e9di\u00e9e \u00e0 un neurostimulateur multi\u00e9lectrodes\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[5] POURMEHDI, S., DUVAL, F., MOUINE, J., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0\u201cUne nouvelle proth\u00e8se \u00e9lectro-tactile\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Quebec, May <strong><b>1990<\/b><\/strong>.\n\n<br \/><br \/>[4] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cConception et r\u00e9alisation d&#8217;une nouvelle g\u00e9n\u00e9ration de proth\u00e8ses neurologiques\u201d, <strong><em>Congr\u00e8s de l&#8217;ACFAS<\/em><\/strong>, Montreal, May <strong><b>1989<\/b><\/strong>.\n\n<br \/><br \/>[3] HASSOUNA, M., EL-RIFAEI, A., FOUDA, A., LATT, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., ELHILALI, M.M., \u201cThe Effect of Early Bladder Stimulation on the Spinal Shock\u201d, <strong><em>AUA Meeting<\/em><\/strong>, Boston, June <strong><b>1988<\/b><\/strong>.\n\n<br \/><br \/>[2] TALBOT, M.A., ABTAHI, R., <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0DUVAL, F., \u201cA 16-Channel Cochlear Implant\u201d, <strong><em>CMC Workshop<\/em><\/strong>, Kingston, June <strong><b>1988<\/b><\/strong>.\n\n<br \/><br \/>[1] <strong><b>SAWAN, M.,<\/b><\/strong>\u00a0ABTAHI, R., DUVAL, F., MAILHOT, F., TALBOT, M.A., \u201cA New Generation of Neurological Prosthesis\u201d, <strong><em>CMC Workshop<\/em><\/strong>, Kingston, June <strong><b>1988<\/b><\/strong>.\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-752cc03 elementor-section-content-middle elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"752cc03\" data-element_type=\"section\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-50 elementor-top-column elementor-element elementor-element-7da05bd\" data-id=\"7da05bd\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-eb7177c elementor-widget elementor-widget-image\" data-id=\"eb7177c\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https:\/\/westlake.edu.cn\/\">\n\t\t\t\t\t\t\t<img decoding=\"async\" width=\"300\" height=\"90\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/WestlakeUniversity-1.png\" class=\"attachment-medium size-medium wp-image-973\" alt=\"\" \/>\t\t\t\t\t\t\t\t<\/a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t<div class=\"elementor-column elementor-col-50 elementor-top-column elementor-element elementor-element-8ee3903\" data-id=\"8ee3903\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-c4f7ff4 elementor-widget elementor-widget-image\" data-id=\"c4f7ff4\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https:\/\/cenbrain.org\/\">\n\t\t\t\t\t\t\t<img fetchpriority=\"high\" decoding=\"async\" width=\"300\" height=\"168\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/CenBRAIN-1-1.png\" class=\"attachment-medium size-medium wp-image-975\" alt=\"\" \/>\t\t\t\t\t\t\t\t<\/a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-4f34476 elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"4f34476\" data-element_type=\"section\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-33 elementor-top-column elementor-element elementor-element-90e335c\" data-id=\"90e335c\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-7c08ed4 elementor-widget elementor-widget-image\" data-id=\"7c08ed4\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"http:\/\/polymtl.ca\/\">\n\t\t\t\t\t\t\t<img loading=\"lazy\" decoding=\"async\" width=\"110\" height=\"113\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/poly-1.gif\" class=\"attachment-large size-large wp-image-977\" alt=\"\" \/>\t\t\t\t\t\t\t\t<\/a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t<div class=\"elementor-column elementor-col-33 elementor-top-column elementor-element elementor-element-e39c881\" data-id=\"e39c881\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-5678079 elementor-widget elementor-widget-image\" data-id=\"5678079\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"http:\/\/polystim.ca\/\">\n\t\t\t\t\t\t\t<img loading=\"lazy\" decoding=\"async\" width=\"110\" height=\"113\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/polystim-2.gif\" class=\"attachment-large size-large wp-image-981\" alt=\"\" \/>\t\t\t\t\t\t\t\t<\/a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t<div class=\"elementor-column elementor-col-33 elementor-top-column elementor-element elementor-element-c46984e\" data-id=\"c46984e\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-87d8d42 elementor-widget elementor-widget-image\" data-id=\"87d8d42\" data-element_type=\"widget\" data-widget_type=\"image.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"http:\/\/newcas.org\/\">\n\t\t\t\t\t\t\t<img loading=\"lazy\" decoding=\"async\" width=\"121\" height=\"113\" src=\"https:\/\/mohamadsawan.org\/wp-content\/uploads\/2023\/08\/newcas-2.gif\" class=\"attachment-large size-large wp-image-985\" alt=\"\" \/>\t\t\t\t\t\t\t\t<\/a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"<p>Mohamad Sawan M.Sc., Ph.D., FIEEE, FRSC, FCAE, FEIC, O.Q., Chair Professor, Westlake University, and Emeritus Professor, Polytechnique Montr\u00e9al. A. Refereed Journal Publications [332] WANG C., FANG C., ZOU Y., YANG J., SAWAN M.,\u00a0\u201cSpikeSEE: An Energy-Efficient Dynamic Scenes Processing Framework for Retinal Prostheses &#8220;, To Appear in Neural Networks Journal, 2023. [331] ZHAO S., YANG J., WANG J., LIU T., ZHANG<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":8,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-297","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/pages\/297"}],"collection":[{"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/comments?post=297"}],"version-history":[{"count":21,"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/pages\/297\/revisions"}],"predecessor-version":[{"id":1325,"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/pages\/297\/revisions\/1325"}],"wp:attachment":[{"href":"https:\/\/mohamadsawan.org\/fr\/wp-json\/wp\/v2\/media?parent=297"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}