Annexe C LISTE DES CONTRIBUTIONS : PUBLICATIONS, BREVETS, ETC.

A. Articles dans des revues scientifiques avec comité de lecture

[275]  RONG G., ZHENG Y., SAWAN M., “Energy Solutions for Wearable Sensors: A Review”, To appear, MDPI Sensors, Vol. 21, Art. 3806, 2021.

[274]  AKBARI M., HONARPARVAR M., SAVARIA Y., SAWAN M., “Power Bound Analysis of a Two-Step MASH Incremental ADC Based on Noise-Shaping SAR ADCs”, To appear, IEEE-TCAS-I, 2021.

[273]  HASHEMI-NOSHAHR F., NABAVI M., GOSSELIN B., SAWAN M., “Low-cutoff Frequency Reduction in Neural Amplifiers: Analysis and Implementation in CMOS 65 nm“, Frontiers in Neuroscience, Neural Technology section, Vol. 15, Art. 667846, June 2021.

[272]  ALI M., ELSAYED A., S., MENDEZ A., SAVARIA, Y., SAWAN, M., “Contact and Remote Breathing Rate Monitoring Techniques: A Review”, IEEE Sensors, 2021.

[271] XIA F., SAWAN M., “Clinical and Research Solutions to Manage Obstructive Sleep Apnea: A Review”, MDPI Sensors, 2021.

[270]  XU Y., YANG J., SAWAN M., “Trends and Challenges of Processing Measurements from Wearable Devices Intended for Epileptic Seizure Prediction”, MDPI Sensors, 2021

[269]  Champagne P.O., Sanon N., Carmant L., Pouliot P., Bouthillier A., Sawan M., “Feasibility of implantable iron oxide nanoparticles in detecting brain activity- proof of concept in a rat model”, Epilepsy Research, Feb 2021.

[268]  RADIN R., SAWAN M., CHEREM-SCHNEIDER M., “An Accurate Zero-Current-Switching Circuit for Ultra-Low-Voltage Boost Converters”, IEEE Transactions on Circuits and Systems II, Vol. 68, No. 6, June 2021, pp. 1773-1777.

[267]  MIRFAKHRAEI S., AUDET Y., HASSAN A., ALI M., SAWAN M., “A Galvanic Isolated Amplifier based on CMOS Integrated Hall-effect Sensors”, IEEE Transactions on Circuits and Systems I, Vol. 68, No. 4, April 2021, pp. 1388-1397.

[266] HAMMOUD A., NGUYEN DK, SAWAN M., “The development of molecular imprinted PEDOT glassy carbon electrode for Carbamazepine detection”, To appear in Elsevier Bioelectronics and Biosensors, 2021.

[265] BIAN S., RONG G., SAWAN M., “Continuous Drug Monitoring: A Future Tool for Individualised Therapy”, To appear in Journal of Pharmaceutical Analysis, 2021.

[264] CHEN Y., SAWAN M., “Trends and Challenges of Wearable Multimodal Technologies for Stroke Risk Prediction”, MDPI Sensors, Vol. 21, No. 2, Jan 2021, pp. 460.

[263]  MIRBOZORGI A., Maghsoudloo E., BahramI H., SAWAN M., GOSSELIN B., “Multi-resonator Arrays for Smart Wireless Power Distribution: Comparison with Experimental Assessment”, IET power electronics, Vol. 13, No. 18, Dec 2020, pp. 4183-4193.

 

[262] ROSTAMI M.-S., NEJAD M.-M., SAWAN M., “A Low-Power Time-to-Digital Converter for Sensor Interface Circuits”, IEEE Transactions on Circuits and Systems II, Vol. 67, No.12, Dec 2020, pp. 2853-2857.

[261] YANG, J., SAWAN M., “Towards Smart and Fully Embedded Seizure Prediction Engine: A Review”, IEEE Transactions on Biomedical Circuits and Systems (TBioCAS), Vol. 14, No. 5, 2020, pp. 1932-4545.

[260]  NAJARPOUR-FAROUSHANI, A., NEUPANE, S., DE HEREDIA PASTOR, P., PACK, C., SAWAN, M., “Spatial resolution of local field potential signals in macaque V4, IOP Science, Journal of Neural Engineering, Vol. 17, No. 2., 2020, 026003.

[259] TRIGUI A., ALI M., HACHED S., DAVID J.-P., AMMARI, A., SAVARIA, Y., SAWAN, M., “Generic Wireless Power Transfer and Data Communication System Based on a Novel Modulation Technique”, IEEE Transactions on Circuits and Systems I, Vol. 67, No. 11, Nov 2020, pp. 3978-3990.

[258] SU Y., BIAN S., SAWAN M., “Real-time In Vivo Detection Techniques for Neurotransmitters: A Review”, Analyst Journal, No. 145, 2020, pp. 6193 – 6210.

[257] HASSAN A., AMER M., SAVARIA Y., SAWAN M., “Fully Integrated Digital GaN-based LSK Demodulator for High-Temperature Applications”, IEEE Transactions on Circuits and Systems II: Express Briefs (TCAS II), Vol. 67, No. 9, Sept. 2020, pp. 1549-1583.

[256] HONARPARVAR M., DE LA ROSA J., SAWAN M., “A 10-MHz BW 77:3-dB SNDR 640-MS/s GRO-based CT MASH SD Modulator”, IEEE TCAS-II, Vol. 67, No. 9, Sept. 2020, pp. 1519-1523.

[255] AZIZIPOUR N., AVAZPOUR R., ROSENZWEIG D., SAWAN M.*, AJJI A.* (2 co-supervisors, equal contributions), “Evolution of biochip technology: A review from lab-on-a-chip to organ-on-a-chip”, Micromachines, Section B: Biology and Biomedicine Journal, Vol.11, No. 6, 2020, pp. 599.

[254] HONARPARVAR M., DE LA ROSA J., SAWAN M., “A 7.5-mV-Input Boost Converter for Thermal Energy Harvesting With 11-mV Self-Startup”, IEEE TCAS-II, Vol. 67, No. 8, Aug. 2020, pp. 1379-1383.

[253] SAHA S., LESAGE F., SAWAN M., “Compact Optical Probe for Time-resolved NIRS- Imaging”, IEEE Sensors Journal, Vol. 20, No. 11, June 2020, pp. 6101-6113.

[252] JAVANBAKHT, T., GHANE-MOTLAGH, B., SAWAN M., “Comparative Study of Antibiofilm Activity and Physicochemical Properties of Microelectrode Arrays”, Microelectronic Engineering, Vol. 229, May 2020.

[251] Rong, G., Mendez, A., Bou Assi, E., Zhao, B., Sawan, M., “Artificial Intelligence in Healthcare: Review and Prediction Case Studies”, Elsevier, Engineering, Vol. 6, No. 3, Mar. 2020, pp. 291-301.

[250] HASHEMI-NOSHAHR F., NABAVI M., SAWAN M., ” Multi-Channel Neural Recording Implants: A Review”, Sensors Vol. 20, No. 3, Feb. 2020, pp. 904.

[249] TANTIN, A., BOU ASSI, E., van Asselt, E., HacheD, S., SAWAN, M., “Predicting Urinary Bladder   Voiding by means of a Linear Discriminant Analysis: Validation in Rats”, Elsevier Biomedical Signal Processing and Control, Vol 55, Jan. 2020, pp. 1016-1067.

[248] MONTAZERI, L., ELZARIF, N., TRENHOLM, S., SAWAN, M., “Optogenetic Stimulation for Restoring Vision to Patients Suffering from Retinal Degenerative Diseases: Current Strategies and Future Directions”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 13, No. 6, Dec. 2019, pp.1792-1807.

[247] SAHA, S., SAWAN, M., LESAGE, F., “Wearable SiPM-based NIRS Interface Integrated with Pulsed Laser Source”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 13, No. 6, Dec. 2019, pp.1313-1323.

[246] TRIGUI A., SAVARIA, Y., AMMARI, A., SAWAN, M., “Energy Efficient Generic Demodulator for High Data Transmission Rate Over an Inductive Link for Implantable Devices”, IEEE Access, Vol. 7, No. 1, Dec 2019, pp. 159379-159389.

[245] GAGLIANO, L., BOU ASSI, E., NGUYEN, D.K., SAWAN, M., “Bispectrum and Recurrent Neural Networks: Improved Classification of Interictal and Preictal States”, Scientific Reports, Springer Nature, Vol. 9, No. 15649, 2019.

[244] CHEBLI, R., ALI, M., SAWAN, M., “High-CMRR Low-Noise Fully Integrated Front-End for EEG Acquisition Systems”, Electronics, Vol. 8, No. 10, Oct. 2019, pp. 1157-1171.

[243] RADIN R.L., SAWAN M., GALUP-MONTORO C., SCHNEIDER M.C., “A 7.5 mV-Input Boost Converter for Thermal Energy Harvesting with 11 mV Self-Startup”, IEEE Trans. on Circuits and Systems II: Express Briefs, Vol. 67, No. 8, 2019, pp. 1379-1383.

[242] HAMMOUD A., NGUYEN DK, SAWAN M., “Detection Methods and Tools of Administered Anti-Epileptic Drugs – A Review”, Biosensors and Bioelectronics OA, Online, Feb. 2019.

[241] HASSAN A., AMER M., SAVARIA Y., SAWAN M., “GaN-based LSK Demodulator for Wireless Data Receivers in High-Temperature Applications”, Microelectronics Journal, Vol. 84, Feb. 2019, pp. 129-135.

[241]  BENAYED H., ALI M., SAHA S., MASMOUDI M., SAWAN M., “Toward a Prototype of an Optoelectronic-based Visual Prosthesis: Control Unit Design and Validation”, Springer ASPIC, Vol. 98, No. 2, 2019, pp. 311-320.

[239]  HASSAN, A., ALI, M., TRIGUI, A., SAVARIA, Y., SAWAN M., “A GaN-based Wireless Monitoring System for High-Temperature Applications”, MDPI Sensors J., Vol. 19, No. 8, 2019, pp. 1785

[240]  BENDER-MACHADO, M., NORNBERG, F., SAWAN, M., GALUP-MONTORO, C., CHEREM SCHNEIDER, M., “Analysis and Design of the Dickson Charge Pump for sub-50 mV Energy Harvesting,” Microelectronics Journal, Vol. 90, 2019, pp. 253-259.

[239]  BOU ASSI, E., RIHANA, S., NGUYEN D.K., SAWAN, M., “Effective Connectivity Analysis of EEG and Accurate Localisation of the Epileptogenic Focus at the Onset of Operculo-Insular Seizures”, Epilepsy Research Journal, Vol. 152, 2019, pp. 42-51.

[238]  TOKUDA, T., ISHIZU, T., NATTAKARN, W., HARUTA, M., NODA, T., SASAGAWA, K., SAWAN, M., OHTA, J. “Design Optimization of CMOS Control Circuit for Integrated Photovoltaic Power Transfer”, Sensors and Materials, Vol. 30, No. 10, 2019, pp. 2343.

[237]  CHAMPAGNE P.O., BOUTHILLIER A., SAWAN M., “Colloidal Stability of Superparamagnetic Iron Oxide Nanoparticles in the Central Nervous System: A Review”, Nanomedicine Journal, Vol. 13, No. 11, 2019, pp. 1385-1400.

[236]  NABOVATI, G., GHAFAR-ZADEH, E., LETOURNEAU, E., SAWAN, M., “Smart Cell Culture Monitoring and Drug Test Platform Using CMOS Capacitive Sensor Array”, IEEE Transactions on Biomedical Engineering, Vol. 66, No. 4, 2019, pp. 1094-1104.

[235]  TRIGUI, A., ALI, M., AMMARI, A., SAVARIA, Y., SAWAN, M., “Maximizing Data Transmission Rate for Implantable Devices Over a Single Inductive Link: Methodological Review”, IEEE Reviews in Biomedical Engineering, Vol. 12, No. 1, 2019, pp. 72-87.

[234]  LAFLAMME-MAYER, N., KOWARZYK, G., BLAQUIÈRE, Y., SAVARIA, Y., SAWAN M., “A Defect-Tolerant Reusable Network of DACs for Wafer-Scale Integration”, IEEE TVLSI, Vol. 27, No. 2, 2019, pp. 304-315.

[233]  Tremblay J., Martinez-Montes E., Vannasing P., Nguyen D., SAWAN M., Lepore F., Lassonde M., Gallagher A., “Comparison of source localization techniques in Diffuse Optical Tomography (DOT) using realistic head model”, Brain Imaging Methods, Frontiers in Neuroscience, Vol. 9, No.7, 2018, pp. 2994-3016.

[232]  BOU ASSI, E., GAGLIANO, L., RIHANA, S., NGUYEN D.K., SAWAN, M., “Bispectrum Features and Multilayer Perceptron Classifier to Enhance Seizure Prediction”, Scientific Reports, Springer Nature, Vol. 8, 15491, 2018.

[231]  ZGAREN, M., MORADI, A., TANGUAY, L.F., SAWAN, M., “ISM-band 902-928 MHz FSK Transceiver with Scalable Performance for Medical Devices”, International Journal of Circuits Theory and Applications, Vol. 46, no. 12, Dec. 2018, pp. 2266-2282.

[230]  HASSAN A., SAVARIA Y., SAWAN M., “GaN Integration Technology, an Ideal Candidate for High-temperature Applications: A Review”, IEEE Access Journal, Vol. 6, No. 1, 2018, pp. 78790-78802.

[229]  HONARPARVAR, M., DE LA ROSA, J., SAWAN, M., “A 0.9-V 100-μW Feedforward Adder-Less Inverter-based ΔΣ MASH Modulator with 91-dB Dynamic Range and 20-kHz Bandwidth”, IEEE Transactions on Circuits and Systems – I, Vol. 65, No. 11, 2018, pp. 3675-3687.

[228]  MEHRI S., AMMARI A., BEN-HADJ-SLAMA, J., SAWAN M., “Design Optimization of Multiple-Layer PSCs with Minimal Losses for Efficient and Robust Inductive Wireless Power Transfer”, IEEE Access Journal, Vol. 6, No. 1, 2018, pp. 31924-31934.

[227]  HASSAN, A., SAVARIA, Y., SAWAN, M., “Electronics and Packaging Intended for Emerging Harsh Environment Applications: A review”, IEEE TVLSI, Vol 26, No. 10, 2018, pp. 2085-2098.

[226]  TRIGUI, A., ALI, M., AMMARI, A., SAVARIA, Y., SAWAN, M., “A 1.5 pJ/bit, 9.04 Mbit/s Carrier-Width Demodulator for Data Transmission Over an Inductive Link Supporting Power and Data Transfer”, IEEE Transactions on Circuits and Systems-II, Vol. 65, No. 10, 2018, pp. 1420-1224.

[225]  SAWMA, C., HASSAN, A., KASSEM, A., SAWAN, M., “Bidirectional Parallel Capacitive Data Links: Modeling and Experimental Results”, IEEE Access Journal, Vol. 6, 2018, pp. 39787- 39796.

[224] SAHA, S., SAWAN, M., LESAGE, F., “Compact Fast Optode based Probe for Single-Photon Counting Applications”, Photonics Technology Letters, Vol 30, No. 17, 2018, pp.1515-1518.

[223]  BOU ASSI, E., NGUYEN, D.K., RIHANA, S., SAWAN, M., “A Functional-Genetic Scheme for Seizure Forecasting in Canine Epilepsy”, IEEE Transactions on Biomedical Engineering, Vol. 65, No. 6, 2018, pp. 1339-1348.

[222]  TOKUDA T., ISHIZU T., NATTAKARN W., HARUTA M., NODA T., SASAGAWA K., SAWAN M., OHTA J., “1 mm3-sized Optical Neural Stimulator based on CMOS Integrated Photovoltaic Power Receiver”, American Institute of Physics (AIP) Advances, Vol. 8, No. 4, 2018, DOI: 10.1063/1.5024243.

[221]  AHMADI-TAMEH, T., SAWAN, M., KASHYAP, R., “Self-referenced broad range optical rotation sensor for flight control applications”, IEEE/OSA Journal of Lightwave Tech, Vol. 36, No. 10, 2018, pp. 2000-2009.

[220]  NAJARPOUR-FAROUSHANI, A., PACK, C., SAWAN, M., “Cortical visual prostheses: from microstimulation to functional percept “, IOP Science, Journal of Neural Engineering, Vol. 15, No. 2, 2018.

[219]  AHMADI-TAMEH, T., SAWAN, M., KASHYAP, R., “Smart Integrated Optical Rotation Sensor Incorporating a Fly-by-Wire Control System”, IEEE Trans. on Industrial Electronics, Vol. 65, No. 8, 2018, pp. 6505-6514.

[218]  GAGLIANO, L., BOU ASSI, E., NGUYEN, D.K., RIHANA, S., SAWAN, M., “Bilateral Preictal Signature of Phase-Amplitude Coupling in Canine Epilepsy”, Epilepsy Research, Vol. 139, 2018, pp. 123-128.

[217]  HASANUZZAMAN, M., MOLTAGH, B., HASSAN, A., MOUNAIM, F., RAUT, R., SAWAN, M., “Toward an Energy-Efficient High-Voltage Compliant Visual Intracortical Multichannel Stimulator, IEEE Trans. on VLSI, Vol. 26, No. 5, 2018, pp. 878-891.

[216]  NATTAKARN W., ISHIZU T., HARUTA M., NODA T., SASAGAWA K., TOKUDA T., SAWAN M., OHTA J., “CMOS-based Optical Energy Harvesting Circuit for Biomedical and Internet of Things Devices”, The Japan Society of Applied Physics (JSAP), Vol. 57, 2018, pp. 1-5.

[215]  Kassab, A., Lelan, J., Tremblay, J., Vannasing, P., Dehbozorgi, M., Pouliot, P., Gallagher, A., Lesage, F., Sawan, M., Nguyen, D., “Multichannel Wearable fNIRS-EEG System for Long-Term Clinical Monitoring”, Human Brain Mapping, Vol. 39, 2018 pp. 7-23.

[214]  MOHAJERTEHRANI, M., SAVARIA, Y., SAWAN, M., “Harvesting Energy from Aviation Data Lines: Implementation and Experimental Results”, IEEE Trans. on CAS-I, Vol. 65, No. 6, 2018, pp. 2048-2056.

[213]  ALI M., SHAWKEY H., ZEKRY A., SAWAN M., “One Mbps 1 nJ/b 3.5-4 GHz Fully-Integrated FM-UWB Transmitter for WBAN Applications”, IEEE Trans. on CAS-I, Vol. 65, No. 6, 2018, pp. 2005-2014.

[212]  BIARDEAU X., HACHED S., LOUTOCHIN O., CAMPEAU L., SAWAN M., CORCOS J., “Montreal Electronic Artificial Urinary Sphincters: Our futuristic alternatives to the AMS800™”, Canadian Urological Journal, Vol. 11, No. 10, 2017, pp. E396-E404.

[211]  GHAFAR-ZADEH, E., GHOLAMZADEH, B., PARASTOO, AC., RAVERI, B., MATYNIA, M., SAWAN, M., AWWAD, F., MAGIEROWSKI, S., “Toward spirometry-on-chip: design, implementation and experimental results”, Microsystem technologies, Vol. 23, No. 10, 2017, pp. 4591-4598.

[210]  ALZAHER, H., SAWAN, M., “Low-Power Channel Select Filters for DVB-H Receivers “, The IEEE Transactions on Circuits and Systems – II, Vol. 64, No. 8, Aug. 2017, pp. 902-906.

[209]  HONARPARVAR, M., DE LA ROSA, J.M., NABKI, F., SAWAN, M., “SMASH ΔΣ Modulator with Adderless Feed-forward Loop Filter”, IET Electronics Letters, Vol. 53, No. 4, 2017, pp. 532-534.

[208]  BOU ASSI, E., RIHANA, S., SAWAN, M., ” EEG Signal Processing for Motor Imagery Brain Computer Interface Applications”, J. Biomedical Science and Engineering, Vol. 10, No.6, 2017, pp. 326-341.

[207]  MAGHSOUDLOO, E., REZAEI, M., SAWAN, M., GOSSELIN, M., “A High-Speed and Ultra Low-Power Subthreshold Signal Level Shifter”, IEEE Trans. on Circuits and Systems-I, Vol. 64, No.5, 2017, pp. 1164-1172.

[206]  BOU ASSI, E., NGUYEN, D.K., RIHANA, S., SAWAN, M., “Towards Accurate Prediction of Epileptic Seizures: A Review”, Elsevier Biomedical Signal Processing and Control, Vol. 34, 2017, pp. 144-157.

[205]  TAHERZADEH-SANI, M., HUSSAINI, S.M.H., RESAEE-D., H., NABKI, F., SAWAN. M.“, A 170 dBΩ CMOS TIA with 52 pA Input-referred Noise and 1-MHz Bandwidth for Very Low Current Sensing”, IEEE Trans. on VLSI, Vol. 25, No. 5, 2017, pp. 1756-1766.

[204]  NABOVATI, G., GHAFAR-ZADEH, E., LETOURNEAU, E., SAWAN, M., “Towards High Throughput Cell Growth Screening: A New CMOS 8×8 Biosensor Array for Life Science Applications”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 11, No. 2, 2017, pp. 380-391.

[203]  GHANE-MOLTAGH, B., CHOUEIB, M., HAJHOSSEINI, AM., HASSANUZZAMAN, M., SAWAN, M., “Direct Growth of Carbon Nanotubes on New High-Density 3D Pyramid-Shaped Microelectrode Arrays for Brain-Machine Interfaces”, MDPI, Micromachines, Vol. 7, No. 163, 2016, pp. 642-650.

[202]  YU, X., MOEZ, K., WEY, I., SAWAN. M., CHEN, J., “A Fully-Integrated Multistage Cross-Coupled Voltage Multiplier with No Reversion Power Loss in Standard CMOS Process”, IEEE Trans. on Circuits and Systems – II, Vol. 64, N0. 7, 2016, pp. 737-741.

[201]  AHMADI-TAMEH, T., SAWAN, M., KASHYAP, R., “Novel Analog Ratio-Metric Optical Rotary Encoder for Avionic Applications”, IEEE Sensors Journal, Vol. 16, No. 17, 2016, pp. 6586-6595.

[200]  MIRBOZORGI, A., BAHRAMI, H., SAWAN, M., GOSSELIN, B., “A Single-Chip Full-Duplex High-Speed Transceiver for Multi-Site Stimulating and Recording Neural Implants”, IEEE Trans. on Biomedical Circuits and Systems, Vol. 10, No. 3, 2016, pp. 643-653.

[199]  WATSON, M., SAWAN, M., DANCAUSE N., “The duration of Motor Responses Evoked with Intracortical Microstimulation in Rats is Primarily Modulated by Stimulus Amplitude and Train Duration”, PLOS One, Vol. 11, No. 7, 2016.

[198]  GHANE-MOLTAGH, B., JAVANBAKHT, T., SHOGHI, F., WILKINSON, K., MARTEL, R., SAWAN, M., “Physicochemical properties of peptide-coated microelectrode arrays and their in vitro effects on Neuroblast cells”, Elsevier Materials Science and Engineering C, Vol. 68, Nov 2016, pp. 642-650.

[197]  LI, N., OSBORN, M., WANG, G., SAWAN, M., “A Digital Multichannel Neural Signal Processing System Using Compressed Sensing”, Elsevier Digital Signal Processing Journal, Vol. 55, Aug. 2016, pp. 64-77.

[196]  MAGHAMI, M.H., SODAGAR, A., SAWAN, M., “Versatile Stimulation Back-End with Programmable Exponential Current Pulse Shapes for a Retinal Visual Prosthesis”, IEEE Trans. on Neural Signals and Rehabilitation Engineering, Vol. 21, No. 11, 2016, pp.1243-1253.

[195]  MASSICOTTE, G., CARRARA, S., DI MICHELI, G., SAWAN, M., “A CMOS Amperometric System for Multi-Neurotransmitter Detection”, IEEE Trans. on Biomed. Circuits & Systems, Vol. 10, No. 3, 2016, pp. 731-741.

[194]  MIRBOZORGI, A., BAHRAMI, H., SAWAN, M., GOSSELIN, B., “A Smart Cage with Uniform Wireless Power Distribution in 3D for Enabling Long-Term Experiments with Freely Moving Animal”, Under revision for the IEEE Trans. on Biomedical Circuits and Systems, Vol. 10, No. 2, 2016, pp. 424–434.

[193]  HACHED, S., TRIGUI, A., LOUTOCHIN, O., CORCOS, J., GARON, A., SAWAN, M. “Novel Electro-mechanic Artificial Urinary Sphincter”, IEEE/ASME Trans. on Mechatronics, Vol. 21, No. 2, 2016, pp. 945 – 955.

[192]  FARTOUMI, S., EMERIAUD, G., SAWAN, M., “Computerized Decision Support System for Traumatic Brain Injury Management”, Journal of Pediatric Intensive Care, Vol. 2, No. 1, 2016, pp.1-40.

[191]  WATSON, M., DANCAUSE N., SAWAN, M., “Intracortical Microstimulation Parameters Dictate the Amplitude and Latency of Evoked Responses”, Brain Stimulation, Vol. 9, No. 2, Nov. 2015, pp. 276-284.

[190]  ZENG, L., YI, X., SHI, G., SAWAN, M., WANG, G., “A High-Voltage Stimulation Chip for Wearable Stroke Rehabilitation Systems”, Int’l Journal in Circuit Theory and Applications, Published Online, Nov. 2015.

[189]  ZHENG, Y., SHANG, N., HADDAD, P., SAWAN, M., “A Microsystem for Magnetic Immunoassay Based on Planar Microcoil Array”, IEEE Trans. on Biomed. Circuits & Systems, Vol. 10, No. 2, April 2015, pp. 477-486.

[188]  HASANUZZAMAN, M., RAUT, R., A., SAWAN, M., “High-Voltage Compliant Microelectrode Array Drivers for Intracortical Microstimulation”, Int’l J. in Circuit Theory & Applications, Vol. 43, No. 12, June 2015, pp. 1-23.

[187]  CHYU, M.C., SAWAN, M., and 39 other co-Authors, “Healthcare Engineering Defined: A White Paper”, Journal of Healthcare Engineering, Vol. 6, No. 4, 2015, pp. 635-648.

[186]  ZGAREN, M., SAWAN, M., “A Low-Power Dual-Injection-Locked RF Receiver with FSK-to-OOK Conversion for Biomedical Implants”, IEEE Transactions on CAS-I, Vol. 62, No. 11, 2015, pp. 2748-2758.

[185]  BIARDEAU, X., HACHED, S., LOTOUCHIN, O., CAMPEAU, L., SAWAN, M., CORCOS, J., “Sphincter urinaire artificiel électromécanique : résultats in vitro”, Progrès en Urologie, Elsevier, Vol. 25, No. 13, Nov. 2015, pp. 842-850.

[184]  SEMMAOUI, H., LI N., HOSSEINI-KHAYAT, S., MARTINEZ-TRUJILLO, J.C., SAWAN, M., “An Adaptive Recovery Method in Compressed Sensing of Extracellular Neural Recording”, Journal of Neurology and Neuroscience, Vol. 6, No. 2, 2015, pp. 19-31.

[183]  AKBAR, M.A., ZGAREN, M., AITSIALI, A., AMIRA, A., BENAMMAR, M., BENSAALI, F., SAWAN, M., BERMAK, A., “Gas Identification Using Passive UHF RFID Sensor Platform”, Sensors and Transducers, Vol. 194, No. 11, Nov. 2015, pp. 42-53.

[182]  KROUCHEV, N., RATTAY, F., M., SAWAN, M., VINET, A., “From Squid to Mammals with the HH Model through the Nav Channels’ Half-activation-voltage Parameter”, PLOS One, Vol. 10, No. 12, 2015, pp. 1-31.

[181]  TRIGUI, A., HACHED, S., MOUNAIM, F., AMMARI, A., SAWAN, M., “Inductive Power Transfer System with Self-Calibrated Primary Resonant Frequency”, IEEE Transactions on Power Electronics, Vol. 30, No. 11, 2015, pp. 6078-6087.

[180]  HACHED, S., SAADAOUI, Z., LOUTOCHIN, O., CORCOS, J., GARON, A., SAWAN, M. “Novel, Wirelessly-Controlled and Adaptive Artificial Urinary Sphincter”, IEEE/ASME Transactions on Mechatronics, Vol. 20, No. 6, 2015, pp. 3040-3052.

[179]  MILED, A., AUCLAIR, B., SRASRA, A., SAWAN, M., “Reconfigurable Prototyping Microfluidic Platform for DEP Manipulation and Capacitive Sensing”, IEEE Trans. on BioCAS, Vol.9, No.2, 2015, pp. 155-165.

[178]  KAMRANI, E., LESAGE F., SAWAN, M., “A Low-Power Photon-Counter Front-End Dedicated to NIRS Brain Imaging”, IEEE Sensors Journal, Vol. 15, No. 7, 2015, pp. 3724-3733.

[177]  FACCHIN, S., MILED, M.A., SAWAN, M. , “In-Channel Constriction Valve for Cerebrospinal Fluid Sampling”, IEEE Trans. on Magnetics, Vol. 51, No. 3, April 2015.

[176]  LI, N., SAWAN, M. ., “Neural Signal Compression Using a Minimum Euclidean or Manhattan Distance Cluster-Based Deterministic Compressed Sensing Matrix”, Elsevier Biomedical Signal Processing and Control, Vol. 19, May 2015, pp. 44-55.

[175]  KASSAB, A., LELAN, J., VANNASING, P., SAWAN, M., “Functional Near-Infrared Spectroscopy Caps for Brain Activity Monitoring: A Review”, Virtual Journal of Biomedical Optics, Vol. 10, No. 2, 2015.

[174]  MORADI, A., SAWAN, M., “An Energy-Efficient High Data-Rate 915 MHz FSK Wireless Transmitter for Medical Applications”, Springer Analog IC and Signal Processing J., Vol. 83, No. 1, 2015, pp. 85-94.

[173]  KASSAB, A., LELAN, J., VANNASING, P.,  SAWAN, M., “Functional Near-Infrared Spectroscopy Caps for Brain Activity Monitoring: A Review”, Applied Optics, Vol. 54, No. 3, Jan. 2015, pp. 576-586.

[172]  LAFLAMME-MAYER, BLAQUIÈRE, Y., SAWAN, M., “A Configurable Analog Buffer Dedicated to a Wafer-Scale Prototyping Platforms”, Springer Analog IC and Sig. Proc. J., Vol. 82, No. 1, 2015, pp. 57-66.

[171]  NABOVATI, G., GHAFAR-ZADEH, E., MIRZAEI, M., AYALA, G., AWWAD, F., SAWAN, M., “A New Fully Differential Capacitance to Digital Converter for Lab-on-Chip Based Sensing Applications”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 9, No. 3, June 2015, pp. 353-361.

[170]  MAGHAMI, M.H., SODAGAR, A., SAWAN, M., “Analysis and Design of a High-Compliance Ultra-High Output Resistance Current Mirror Employing Positive Shunt Feedback”, Int. Journal on Circuits Theory and Applications, Vol. 43, No. 12, 2015, pp. 1935-1952.

[169]  MOAZZENI, S., SAWAN, M., COWAN, G., “An Ultra-Low-Power Energy-Efficient Dual-Mode Wake-Up Receiver”, IEEE Transactions on Circuits and Systems-I, Vol. 62, No. 2, 2014, pp. 517-526.

[168]  HACHED, S., GARON, A., LOUTOCHIN, O., CORCOS, J., SAWAN, M., “Smart Artificial Urinary Sphincter: Preserving Organs and Patient’s Quality of Life”, AMSE IFRATH Publication, Modeling C, Vol. 75, No. 2, 2014, pp. 119-130.

[167]  ZHENG, Y., SAWAN, M., “A BioMEMS Chip with Integrated Micro Electromagnet Array towards Bio-particles Manipulation”, Elsevier Microelectronics Engineering Journal, Vol. 128, Oct. 2014, pp. 1-6.

[166]  MIRZAEI, M., SAWAN, M., “Microelectronics-based Biosensors Dedicated to the Detection of Neurotransmitters: A Review”, Special Issue on Implantable Sensors, Sensors Journal, Vol. 14, No. 10, 2014, pp. 17981-18008.

[165]  GHANNOUM, A., GHAFAR-ZADEH, E., SAWAN, M., “Image Processing System Dedicated to a Visual Intra-Cortical Stimulator”, IET Image Processing, Vol. 8, No. 12, 2014, pp. 846-855.

[164]  LAFLAMME-MAYER, BLAQUIÈRE, Y., SAVARIA, Y., SAWAN, M., “A Configurable Multi-Rail Power and I/O Pad Applied to Wafer-Scale Systems”, IEEE-TCAS-I, Vol. 61, No. 11, 2014, pp. 3135-3144.

[163]  MORADI, A., SAWAN, M., “A New Differential Rail-To-Rail Voltage-Controlled Quadrature Ring-Oscillator For Low-Power Implantable Transceivers”, The Institution of Engineering and Technology  (IET) Electronics Letters, Vol. 50, No. 22, 2014, pp. 1568-1570, and Featured page, 2014, pp. 1558.

[162]  TARIQUS-SALAM, M., GELINAS, S., DESGENT S., DUSS, S., TURMEL, F.B., CARMANT, L., SAWAN, M., NGUYEN, D.K., “Subdural Porous and Notched Mini Grid Electrodes for Wireless Intracranial Electroencephalographic Recordings”, Journal of Multidisciplinary Healthcare, Vol. 7, 2014, pp. 573-586

[161]  GHANE-MOTLAGH, B., SAWAN, M., “High-Density Implantable Microelectrode Arrays for Brain-Machine Interface Applications”, Advances in Science and Technology, Vol. 96, Oct. 2014, pp. 95-101.

[160]  MENDEZ, A., SAWAN, M., “A DSP for Sensing the Bladder Volume Through Afferent Neural Pathways”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 8, No. 4, 2014, pp. 552-564.

[159]  JUDY, M., SODAGAR, A., LOTFI, R., SAWAN, M., “Nonlinear Signal-Specific ADC for Efficient Neural Recording in Brain-Machine Interfaces”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 8, No. 3, 2014, pp. 371-381.

[158]  MIRBOZORGI, A., BAHRAMI, H., SAWAN, M., GOSSELIN, B., “A Smart Multicoil Inductively-coupled Array for Wireless Power Transmission”, IEEE Trans. on Indust. Electronics, Vol. 61, No. 11, 2014, pp. 6061-6070.

[157]  KROUCHEV N., DANNER, S., VINET, A., RATTAY, F., SAWAN, M., “Energy-optimal Electrical-stimulation Pulses Shaped by the Least-Action Principle, PLoS One, Vol. 9, No. 3, e90480, On line, 2014.

[156]  HACHED, S., LOUTOCHIN, O., CORCOS, J., M., SAWAN, M. “Novel, Remotely-controlled, Artificial Urinary Sphincter: A Retro-compatible Device”, IEEE/ASME Trans. on Mechat., Vol. 19, No. 4, 2014, pp. 1352-1362.

[155]  PENG K., NGUYEN D.K., TAYAH T., VANNASING P., TREMBLAY, J. SAWAN, M., LASSONDE M., LESAGE F., POULIOT, P., “fNIRS-EEG study of focal interictal epileptiform discharges, Epilepsy Research Journal, Vol. 108, No. 3, 2014, pp. 491-505.

[154]  LAKKIS, S., YOUNES, R., ALAYLI, Y., SAWAN, M., “Review of Recent Trends in Gas Sensing Technologies and their Miniaturization Potential”, Sensor Review Journal, Vol. 34, No. 1, 2014, pp. 24-35.

[153]  KAMRANI, E., LESAGE, F., SAWAN, M., “Low-Noise, High-Gain TIA Integrated with CMOS APD for Low-Intensity Light Detection in Near-Infrared Spectroscopy”, IEEE Sensors J., Vol. 14, No. 1, 2014, pp. 258-269.

[152]  MENDEZ, A., SAWAN, M., MINAGAWA, T., WYNDAELE, J.J., “Estimation of Bladder Volume from Afferent Neural Activity”, IEEE Trans. on Neural Signal and Rehabilitation Eng., Vol. 21, No. 5, 2013, pp. 704-715.

[151]  MILED, A., SAWAN, M., “High Throughput Microfluidic Rapid and Low-Cost Prototyping Packaging Methods”, Journal of Visualized Experiments (JoVE), No. 82, e50735, doi:10.3791/50735, 2013.

[150]  MOAZZINI, S., COWAN G., SAWAN, M., “Optimizing the Power-Sensitivity Trade-off in TRF Receivers”, Springer Analog Integrated Circuits and Signal Processing, Vol. 77, No. 2, Nov. 2013, pp. 197-205.

[149]  GHANE-MOTLAGH, B., SAWAN, M., “Design and Implementation Challenges of Microelectrode Arrays: A Review”, Materials Sciences and Applications Journal, No. 4, Aug. 2013, pp. 483-495.

[148]  MIRZAEI, M., TARIQUS-SALAM, M., NGUYEN, D., SAWAN, M., “A Fully-Asynchronous Low-Power Implantable Seizure Detector for Self-Triggering Treatment”, The IEEE Transactions on Biomedical Circuits and Systems, Vol. 7, No. 5, 2013, pp. 563-572.

[147]  LAFLAMME-MAYER, N., WALDER, A., VALORGE, O., BLAQUIÈRE, Y., SAWAN, M., “A Configurable Input-Output Power Pad for Wafer-Scale Microelectronic Systems”, IEEE-TVLSI, Vol. 21, No.11, 2013, pp. 2024-33.

[146]  NGUYEN, D., TREMBLAY, J., POULIOT, P., VANNASING, P., CARMANT, L., LEPORE, F., SAWAN, M., LESAGE, F., LASSONDE, M., “Non-invasive continuous EEG-fNIRS recording of frontal lobe seizures”, Epilepsia, Vol. 54, No. 2, 2013, pp. 331-340 (cover page).

[145]  SAFI-HARB, M., MIRABBASI, S., SAWAN, M., “A Time-Based Technique for Testing LC-Tank Oscillators”, The IEEE-Transactions on Circuits and Systems-I, Vol. 59, no. 9, 2013, pp. 1849-1859.

[144]  ZHENG, Y., SAWAN, M., “Planar Microcoil Array Based Temperature-controllable Lab-on-Chip Platform”, IEEE-Transactions on Magnetics, Vol. 49, No. 10, 2013, pp. 5236 – 5242

[143]  CORCOS J., HACHED S., LOUTOCHIN O., SAWAN, M., “Novel, Remotely-Controlled, Artificial Urinary Sphincter: A Retro-Compatible Device”, The Journal of Urology, Vol. 189, 2013, pp. e562-e563.

[142] SAWAN, M., SALAM, M.T., LELAN, J., KASSAB, A., GELINAS, S., VANNASING, P., LESAGE, F., NGUYEN, D., LASSONDE, M, “Wireless Recording Systems: From Non-Invasive EEG-NIRS To Invasive EEG Devices”, IEEE-Trans. on Biomedical Circuits and Systems, Vol. 7, No. 2, Apr. 2013, pp. 186-195.

[141]  KAMRANI, E., LESAGE, F., SAWAN, M., “On-Chip Integrated Photoreceiver for Real-time Brain Imaging”, Transactions of Japanese Society for Medical and Biological Eng., Vol. 51, No. Supplement, 2013, R-75.

[140]  CORCOS J., HACHED S., LOUTOCHIN O., SAWAN, M., “Development of a Novel Remotely-Controlled Artificial Urinary Sphincter: A Retro-Compatible Device”, Neurourology and Urodynamics, Vol. 32, 2013, pp. 128-129.

[139] MILED, A., GAGNE-TURCOTTE, A., SAWAN, M., “Hybrid Modeling Method for a DEP Based Particle Manipulation”, MDPI Sensors, Vol. 13, No. 2, 2013, pp. 1730-1753.

[138]  KAMRANI, E., LESAGE, F., SAWAN, M., “Efficient Premature Edge Breakdown Prevention in SiAPD Fabrication using Standard CMOS Process”, Semiconductor Science & Technology, Vol. 28, No. 4, 2013.

[137]  CAREMEL, R., CORCOS, J., HACHED, S., LOTOUCHIN, O., SAWAN, M., “Sphincter artificiel électronique télé-commandé et compatible avec le sphincter AMS 800”, Progrès en Urologie, Vol. 23, No. 13, 2013, pp. 1071.

[136]  TARIQUS-SALAM, M., HAMIE, A., NGUYEN, D., SAWAN, M., “A Smart Biological Signal-Responsive Focal Drug Delivery System for Treatment of Refractory Epilepsy”, Advances in Science and Technology, Vol. 85, 2013, pp. 39-46.

[135]  MILED, A., MASSICOTTE, G., SAWAN, M., “Low-Voltage Lab-on-Chip for Micro and Nano Particles Manipulation and Capacitive Detections: Experimental results”, Springer Analog Integrated Circuits and Signal Processing Journal, Vol. 73, No. 3, 2012, pp. 707-717.

[134]  KAMRANI, E., LESAGE, F., SAWAN, M., “Fully On-Chip Integrated Photodetector Front-End Dedicated to Real-Time Portable Optical Brain Imaging”, Optics and Photonics J., Vol. 2, No. 4, 2012, pp.300-313.

[133]  MOUNAIM, F., SAWAN, M., “Toward A Fully Integrated Neurostimulator with Inductive Power Recovery Front-End”, IEEE-Trans. on Biomed. Circuits and Systems, Vol. 6, No. 4, 2012, pp. 309-318.

[132]  MILED, A., MASSICOTTE, G., SAWAN, M., “Dielectrophoresis-Based Integrated Lab-on-Chip for Nano and Micro-Particles Manipulation and Capacitive Detection”, IEEE-Trans. on Biomedical Circuits and Systems, Vol. 6, No. 2, 2012, pp. 120-132.

[131]  KAMRANI, E., FOROUSHANI, A., VAZIRUPOUR, M., SAWAN, M., “Detecting the Stable, Observable and Controllable States of the Human Brain Dynamics”, J. of Medical Imaging, Vol. 2, No. 4, 2012, pp. 128-136.

[130]  HASHEMI, S., SAWAN, M., SAVARIA, Y., “A High-Efficiency Low-Voltage CMOS Active Rectifier for Harvesting Energy in Implantable Devices”, The IEEE-Trans. on BioCAS, Vol. 6, No. 4, 2012, pp. 326-335.

[129]  TARIQUS-SALAM, M., MIRZAEI, M., SANDRA-LY, M., NGUYEN, D., SAWAN, M., “An Implantable Closed-loop Asynchronous Drug Delivery System for the Treatment of Refractory Epilepsy”, The IEEE-Trans. on NSRE, Vol. 20, No. 4, 2012, pp. 432-442.

[128]  MAHVASH, H., GHAFAR-ZADEH, E., SAWAN, M., “An Image Processing Approach for Blind Mobility Facilitated Through Visual Intracortical Stimulation”, Artificial Organs, Vol. 36, No. 7, 2012, pp. 616-628.

[127]  TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., “Implantable Closed-loop Epilepsy Prosthesis: Modeling, Implementation and Validation”, Journal of Emerging Tech. in Computing, Vol. 8, No. 2, 2012, pp. 9:1-18.

[126]  KAMRANI, E., FOROUSHANI, A., VAZIRUPOUR, M., SAWAN, M., “Efficient Hemodynamic States Stimulation using fNIRS Data with the Extended Kalman Filter and Bifurcation Analysis of Balloon Model”, Journal of Biomedical Science and Engineering (JBiSE), Vol. 5, No. 11, 2012, pp. 609-628.

[125]  CAO, Y., ZHU, Y., RONG, G., LIN, Z., WANG, G., GU, Z., SAWAN, M., “Efficient Optical Pattern Detection for Microcavity Sensors Based Lab-on-a-Chip,” IEEE Sensors Journal, Vol. 12, No. 6, 2012, pp. 2121-2128.

[124]  TARIQUS-SALAM, M., MOUNAIM, F., NGUYEN, D., SAWAN, M., “Low-Power Circuit Techniques for Epileptic Seizures Detection and Subsequent Neurostimulation”, Journal of Low Power Electronics, Vol. 8, No. 2, 2012, pp. 133-145.

[123]  SEMMAOUI, H., DROLET, J., LAKHSSASSI, A., SAWAN, M., “Setting Adaptive Spike Detection Threshold for Smoothed-TEO Based on Robust Statistics Theory”, Trans. on Biomedical Engineering, Vol. 59, No. 2, Feb. 2012, pp. 474-482.

[122]  SAFI-HARB, M., TARIQUS-SALAM, M., NGUYEN, D., SAWAN, M., “An Implantable Seizure-Onset Detector Based on a Dual-Path Single-Window Count-Based Technique for Closed-Loop Applications”, IEEE Journal on Emerging and Selected Topics in Circuits and Systems, Vol. 1, No. 4, 2012, pp.603-612.

[121]  NGUYEN, D., TREMBLAY, J., POULIOT, P., VANNASING, P., FLOREA, O., CARMANT, L., LEPORE, F., SAWAN, M., LESAGE, F., LASSONDE, M., “Non-invasive continuous EEG-fNIRS recording of temporal lobe seizures”, Elsevier Epilepsy Research, Available on-line, Vol. 99, No.1-2, 2012, pp.112-126

[120]  SULTANA, A., KAMRANI, E., SAWAN, M., “CMOS Silicon Avalanche Photodiodes for NIR Light Detection: A Survey”, Springer Analog IC& Signal Processing J., Vol. 70, 2012, pp. 1-13.

[119]  POULIOT, P., TREMBLAY, J., ROBERT, M., P. VANNASING, P., LEPORE, F., LASSONDE, M., SAWAN, M., NGUYEN, D.K., LESAGE, F., “Nonlinear Hemodynamic Responses in Human Epilepsy: A Multimodal Analysis With fNIRS-EEG and fMRI-EEG”, J. Neurosci Methods, Vol. 204, No. 2, Nov. 2012, pp. 326-340.

[118]  GOSSELIN, B., HOSSEINI-KHAYAT, S., QUOTB, A., SAWAN, M., “Hardware Implementation of Wavelet Transforms for Real-time Detection and Compression of Biopotentials in Neural Implants”, The J. of Current Development in Theory and Applications of Wavelets, Vol. 5, No. 1, 2011, pp. 1-34.

[117]  TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., “A Novel Low-Power Implantable Epileptic Seizure-Onset Detector”, The IEEE-Trans. on BioCAS, Vol. 5, No. 6, 2011, pp.568-578.

[116]  NADIRI, A., MANNOR, S., SAWAN, M., GROSS, W., “Delayed Stochastic Decoding of LDPC Codes”, The IEEE-Trans. on Signal Processing, Vol. 59, No. 11, 2011, pp. 5617 – 5626.

[115]  LAREAU, E., POULIOT, P., LESAGE, F., NGUYEN, D., SAWAN, M., “Multichannel Wearable System Dedicated for Simultaneous Electroencephalography/Near-Infrared Spectroscopy Real-Time Data Acquisitions”, The Journal of Biomedical Optics, Vol. 16, No. 9, Sept 2011, pp. 1-14.

[114]  HAMZA, J., SAWAN, M., JAIN, P.K., “Suppression of Common-Mode Input Electromagnetic Interference Noise in DC-DC Converters using Active Filtering Method”, IET Power Electronics, Vol.4, No.7, Aug. 2011, pp.776-784.

[113]  ALTERKAWI-HASIB, O., SAWAN, M., SAVARIA, Y., “A Low-Power Asynchronous Step-Down DC-DC Converter for Implantable Devices”, IEEE-Trans. on BioCAS, Vol. 5, No. 3, June 2011, pp., 292-301

[112]  MOUNAÏM, F., SAWAN, M., “Integrated High-Voltage Inductive Power and Data Recovery Front-End Dedicated to Implantable Devices”, IEEE-Trans. on BioCAS, Vol. 5, No. 3, June 2011, pp. 283-291.

[111]  AWWAD, F., NEKILI, M., SAWAN, M.,A Novel Theory on Parallel Repeater-Insertion Methodologies for Long On-Chip Interconnects”, Int’l J. of Circuit Theory and Applications, Vol. 39, Jan. 2011, pp.1-16.

[110]  GHAFAR-ZADEH, E., SAWAN, M.., “A Biological Laboratory on Microelectronic Chip: Design, Fabrication, And Experimental Results”, The Scientific Information Database, Vol. 8, No. 4, 2011.

[109]  ETHIER. S., SAWAN, M., “Exponential Current Pulse Generation for Efficient Very High-Impedance Multisite Stimulation”, IEEE-Trans. on Biomed. Circuits & Systems, Vol. 5, No. 1, Feb. 2011, pp. 30-38.

[108]  MENDEZ, A., SAWAN, M., “Chronic Monitoring of The Bladder Volume: Critical Review and Assessment Of Measurement Methods”, Canadian J. of Urology, Vol. 8, No. 1, Feb. 2011, pp. 5504-16.

[107]  GHAFAR-ZADEH, E., CHOWDHURY, S.F., ALIAKBAR, A., LAMBROSE, R., CHODAVARAPU, V.P., BEITAL, L., SAWAN, M., TRIFIRO, M., “Handheld Impedance Biosensor System using Engineered Proteinaceous Receptors”, Biomedical Microdevices Journal, Vol. 12, No.6, 2010, pp. 967-975.

[106]  MOUNAÏM, F., ELZAYAT, E., SAWAN, M., CORCOS, J., ELHILALI, M., “New Neurostimulation And Blockade Strategy to Reduce Sphincter Resistance in Spinalized Dogs”, Contemporary Engineering Sciences J., Vol.3, No.7, 2010, pp. 321-337.

[105]  GHAFAR-ZADEH, E., SAWAN, M., CHODAVARAPU, V.P., HOSSEINI-NIA, T., “Bacteria Growth Monitoring Through a Differential CMOS Capacitive Sensor”, IEEE Trans. on Biomedical Circuits & Systems, Vol. 4, No. 4, August 2010, pp. 232-238.

[104]  GOSSELIN, B., SAWAN, M., “Linear-Phase Delay Filters for Ultra-Low-Power Signal Processing in Neural Recording Implants”, IEEE Trans. on Biomed. Circuits & Systems, Vol. 4, No.3, June 2010, pp. 171-180.

[103]  SIMARD, G., SAWAN, M., MASSICOTTE, D., “High Speed OQPSK and Efficient Power Transfer Through Inductive Link for Biomedical Implants”, IEEE Trans. on Biomedical Circuits & Systems, Vol. 4, No.3, June 2010, pp. 192-200.

[102]  TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., “An alternative treatment for epilepsy: low-power implantable device”, The Journal of Healthcare Engineering, Vol. 1, No. 2, June 2010, pp. 169-183.

[101]  GOSSELIN, B., SAWAN, M., “A low-power integrated neural interface with digital spike detection and extraction”, Springer Analog IC and SP Journal, Vol. 64, No.2, July 2010, pp. 3-11.

[100]  LÉVESQUE, P., SAWAN, M., “Low-power hand-held ultrasound digital preprocessing unit with wireless display”, IEEE Trans. on Ultrasonics, Ferroelec., and Freq. Control, Vol.57, No.3, 2010, pp. 757-767.

[99] CHEBLI, R., SAWAN, M., EL-SANKARY, K., SAVARIA, Y., “High-Voltage DMOS Integrated Circuits Using Floating-Gate Protection Technique”, Springer Analog IC & Signal Proc. J., Vol. 62, No. 2, 2010, pp. 223-235.

[98] SAWAN, M., HASHEMI, S., SEHIL, M., AWWAD, F., HAJJ-HASSAN, M., KHOUAS, A., «Multi coils-based inductive links dedicated to power up implantable medical devices: modelling, design and experimental results» Biomedical Micro devices, Vol. 11, No. 5, October 2009, pp. 1059-1070.

[97] HASHEMI, S., SAWAN, M., SAVARIA, Y., “A Novel Low-Drop Voltage CMOS Active Rectifier for RF Powered Devices: Experimental Results”, Elsevier Microelectronics J., Vol. 40, No. 11, 2009, pp. 1547-1554.

[96] MILED, M.A., SAWAN, M., GHAFAR-ZADEH, E., “A Dynamic Decoder for First-Order Modulators Dedicated to Lab-on-Chip Applications”, IEEE Trans. on Signal Proc., Vol. 57, No.10, 2009, pp. 4076-84.

[95] Ghafar-Zadeh, E., SAWAN, M., “CMOS Based Capacitive Sensor Laboratory-on-Chip: A Multidisciplinary Approach”, Springer Analog ICs & Signal Proc. J, Vol. 59, No. 1, April 2009, pp. 1-12.

[94] GHAFAR-ZADEH, E., SAWAN, M., CHODAVARAPU, V.P., “Micro-Organism-on-Chip: Emerging Direct-Write CMOS-Based Platform for Biological Applications” IEEE Transactions on Biomedical circuits and systems, Vol. 3, No. 4, 2009, pp. 212-219.

[93] GOSSELIN, B., SAWAN, M., “An Ultra-Low-Power CMOS Automatic Action Potential Detector”, IEEE Trans. on Neural Systems & Rehabilitation Engineering, Vol. 17, No. 4, August 2009 pp. 346-353.

[92] LÉVESQUE, P., SAWAN, M., “Real-time hand-held ultrasound medical imaging device based on a new digital quadrature demodulation processor”, IEEE Trans. on Ultrasound and Acoustic Imaging, Vol. 56, No. 8, August 2009, pp. 1654-1665.

[91] NAJMABADI, M., DEVABHAKTUNI, V., SAWAN, M., MAYRAND, S., FALLONE, C.A., “A New Approach to Analysis and Modeling of Esophageal Manometry Data in Humans”, IEEE Transactions on Biomedical Eng., Vol. 56, No. 7, 2009, pp. 1821-1830.

[90] Ghafar-Zadeh, E., SAWAN, M., ThErriault, D., “A Microfluidic Packaging Technique for Lab-on-Chip Applications”, IEEE Trans. on Advanced Packaging, Vol. 32, No. 2, May 2009, pp. 410-416.

[89] GOSSELIN, B., AYOUB, A.E., ROY, J.F., SAWAN, M., LEPORE, F., CHAUDHURI, A., GUITTON, D., “A Mixed-Signal Multi-Chip Neural Recording Interface with Bandwidth Reduction”, IEEE Trans. on Biomedical Circuits & Systems, Vol. 3, Issue 3, June 2009, pp. 129-141.

[88] TANGUAY, L.F., SAWAN, M., SAVARIA, Y., “A Very-High Output Impedance Charge Pump for Low-Voltage Low-Power PLLs”, Elsevier Microelectronics Journal, Vol. 40, 2009, pp. 1026–1031.

[87] Ghafar-Zadeh, E., SAWAN, M., “Toward Fully Integrated Lab-on-Chip: Design, Assembly and Experimental Results”, Int. J. of Advanced Media and Communications, Vol.3, No. 1/2, 2009, pp. 154-166.

[86] GHAFAR-ZADEH, E., SAWAN, M., THERRIAULT, D., RAJAGOPALAN, S., CHODAVARAPU, V., “A direct-write microfluidic fabrication process for CMOS-based Lab-on-Chip applications”, Microelectronic Engineering, Vol. 86, Issue 10, 2009, pp. 2104-2109.

[85] NADERI, A., SAWAN, M., Savaria, Y., “A Low-power 2-GHz Data Conversion using Delta Modulation for Portable Application”, Elsevier Microelectronics Journal, Vol. 42, No. 1, Jan. 2009, pp. 68-76.

[84] RAJAGOPALAN, S., SAWAN, M., GHAFAR-ZADEH, E., SAVADODGO, O., CHODAVARAPU, V., “A Polypyrrole-based Strain Sensor Dedicated to Measure Bladder Volume in Patients with Urinary Dysfunction”, BioMEMS Special Issue, Sensors, Vol. 8, No. 8, 2008, pp. 5081-5095.

[83] Naderi, A., SAWAN, M., Savaria, Y., “On the Design of Undersampling Continuous-Time Band-Pass Delta-Sigma Modulators for Gigahertz Frequency A/D Conversion”, IEEE Trans. on Circuits & Systems-I, Vol. 55, no. 11, Dec. 2008, pp. 3488-3499.

[82] SAWAN, M., BA, A., MOUNAIM, F., CORCOS, J., Elhilali, M.M., “Biomedical Circuits and Systems Dedicated for Sensing and Neurostimulation: Case study on Urinary Bladder dysfunctions”, Turk. Journal of Elec. Eng., Vol. 16, No. 3, Dec. 2008, pp. 1-17.

[81] GHAFAR-ZADEH, E., SAWAN, M., THERRIAULT, D., MILED, M.A., “Laboratoires-sur-puces: Nouvelle technologie de diagnostic cellulaire et moléculaire”, IEEE Canadian Review, No. 58, Aug. 2008, pp. 20-22.

[80] Ghafar-Zadeh, E., SAWAN, M., “A Core-CBCM Sigma Delta Capacitive Sensor Array Dedicated to Lab-on-Chip Applications”, Sensors & Actuators: A. Physical. Vol. 144, Issue 2, June 2008, pp. 304-313.

[79] ACHIGUI, H., SAWAN, M., FAYOMI, C.-J., “A monolithic based NIRS front-end wireless sensor”, Elsevier Microelectronics Journal, Vol. 39, March 2008, pp. 1207-1217.

[78] TANGUAY, L.F., SAWAN, M., “An Ultra-Low Power ISM-Band Integer-N Frequency Synthesizer Dedicated to Implantable Medical Microsystems”, Springer Analog ICs & Sig. Proc. J, Vol. 58, No. 3, 2008, pp. 205-214.

[77] Ghafar-Zadeh, E., SAWAN, M., “Charge-Based Capacitive Sensor Array for CMOS-Based Laboratory-On-Chip Applications”, IEEE Sensors, Vol. 8, No. 4, April 2008, pp. 325-232.

[76] Saleh, A., SAWAN, M., El-Zayat, CORCOS, J., E., Elhilali, M.M., “Detection of Bladder Volume from the Neural Afferent Activities in dogs: Experimental Results”, Special Issue of Neurological Research: Spinal Cord Research, Vol. 30, No. 1, February 2008, pp. 28-35.

[75] SAWAN, M., Mounaim, F., Lesbros, G., “Long Term Monitoring for In-Vivo Characterization of Electrode-Tissues Contacts”, Springer Anal. ICs & Signal Processing J., Vol. 55, No. 1, 2008, pp. 103-114.

[74] AWWAD, F., NEKILI, M., RAMACHANDRAN, V., SAWAN, M., “On Modeling of Parallel Repeater-Insertion Methodologies for SoC Interconnects”, IEEE Trans. on Circuits and Systems –I, Vol. 55, No. 1, 2008, pp. 322-335.

[73] SAWAN, M., GOSSELIN, B., COULOMBE, J., AYOUB, A.E., CHAUDHAURI, A., LEPORE, F., “Implantable electronics for the recovery of neuromuscular functions”, Advances in Science and Technology, Vol. 57, 2008, pp. 204-209.

[72] Ghafar-Zadeh, E., SAWAN, M., ThErriault, D., “A 0.18-µm CMOS Capacitive Sensor Lab-on- Chip”, Elsevier Sensors & Actuators, Vol. 141, Issue 2, Feb. 2008, pp. 454-462.

[71] LEBEL, E., ASSI, A., SAWAN, M., “Programmable Monolithic Gm-C Band-Pass Filter: Design and Experimental Results”, Springer Analog ICs & Signal Processing J., Vol. 53, No. 1, Jan. 2008, pp. 21-29.

[70] KASSEM, A., SAWAN, M., HAMAD, M., HAIDAR, A., “Toward a miniaturized generation of ultrasonic-based devices”, Journal of Circuits, Systems, and Computers, Vol. 16, No. 6, December 2007, pp. 1027-1044.

[69] COULOMBE, J., SAWAN, M., GERVAIS, J.F., “A Highly Flexible System for Microstimulation of the Visual Cortex: Design and Implementation”, IEEE Trans. on Biomedical Circuits & Systems, Vol. 1, No. 4, 2007, pp. 258-269.

[68] Ghafar-Zadeh, E., SAWAN, M., “A Hybrid Microfluidic/CMOS Capacitive Sensor Dedicated to Lab-on-Chip Applications”, IEEE Trans. on Biomedical Circuits & Systems. Vol. 1, No. 4, Dec. 2007, pp. 270-277.

[67] DJEMOUAI, A., SAWAN, M., “Circuit Techniques Dedicated to Effectively Wireless Transfer Power and Data to Electronic Implants”, J. of Circuits, Systems, and Computers, Vol. 16, No. 5, Oct. 2007, pp. 801-818.

[66] ACHIGUI, H., SAWAN, M., FAYOMI, C.-J., “A 1 V Fully Differential, Fully Balanced Opamp: Implementation and Experimental Results”, Springer Analog ICs & Signal Processing J., Vol. 53, No. 1, Oct. 2007, pp. 19-25.

[65] SAHEB, J.-F., RICHARD, J.-F., SAWAN, M., SAVARIA, Y., “System Integration of High Voltage Electrostatic MEMS Actuators”, Springer Analog ICs & Signal Processing J., Vol. 53, No. 1, Oct. 2007, pp. 27-34.

[64] GOSSELIN, B., SAWAN, M., CHAPMAN, A., “A Low-Power Integrated Bioamplifier With a New DC Rejection Scheme”, IEEE Trans. on Biomedical Circuits & Systems, Vol. 1, No. 3, Sept. 2007, pp. 184-192.

[63] SAWAN, M., LAAZIRI, Y., MOUNAIM, F., ELZAYAT E., CORCOS J., ELHILALI M.M., “Electrode-Tissues Interface: Modeling and Experimental Measurements”, Biomedical Materials, Vol. 2, 2007, S7-S15.

[62] GHAFAR-ZADEH, E., SAWAN, M., THERRIAULT, D., “Novel Direct-Write CMOS-based Laboratory-On-Chip: Design, Assembly and Experimental Results”, Elsevier Sensors & Actuators, Vol. 134, No. 1, February 2007, pp. 27-36.

[61] CHEBLI, R., SAWAN, M., “Fully Integrated High-Voltage Front-End Interface for Ultrasonic Sensing Applications”, IEEE Trans. on Circuits and Systems –I, Vol. 54, No. 1, January 2007, pp. 179-190.

[60] Boyogueno-Bende, A., SAWAN, M., SLAMANI, M., “A BiCMOS 120 mw 11 GHz transimpedance amplifier dedicated for high-speed photoreceivers”, J. of Circuits, Systems and Computers, Vol. 15, No. 4, 2006, pp. 467-490.

[59] SAWAN, M., TREPANIER, A., TREPANIER, J.L., AUDET, Y., “A New CMOS Multimode Digital Pixel Sensor Dedicated to an Implantable Visual Cortical Stimulator”, Springer Analog ICs & Signal Processing J., Vol. 49, 2006, pp. 187-197.

[58] ACHIGUI, H., FAYOMI, C.-J., SAWAN, M., “1 V DTMOS Based Class AB Operational Amplifier:  Implementation and Experimental Results”, IEEE Journal of Solid-State Circuits, Vol. 41, No. 11, November 2006, pp. 2440-2448.

[57] EL-SANKARY, K., SAWAN, M., “High Resolution Background Calibrated ADCs for Software Defined Radios”, IEE Microelectronics Journal, Vol. 37, November 2006, pp. 1231-1240.

[56] AMEZZANE, I., SAWAN, M., BELLEMARE, F., “Modelling and Simulation of an Infants’s Whole Body Plethysmograph”, Springer Med. Biol. Eng. Computing, Vol. 44, No. 9, August 2006, pp. 823-828.

[55] El-SANKARY, K., SAWAN, M., “A Background Calibration Technique for Multi-bit/Stage Pipelined and Time-Interleaved ADCs”, IEEE Trans. on Circuits and Systems-II, Vol. 53, No. 6, June 2006, pp. 448-452.

[54] QIN, L. EL-SANKARY, K., SAWAN, M., “A 1.8V CMOS Fourth-Order Gm-C Bandpass Sigma-Delta Modulator Dedicated to Front-End Ultrasonic”, Springer Analog IC & Signal Proc. J., Vol. 48, August 2006, pp. 121-132.

[53] FAYOMI, C., SAWAN, M., ROBERTS, G., “Low-Voltage Analog Switch in Deep Submicron CMOS: Design Technique and Experimental Measurements”, IEICE Fundamentals, Vol. E89, no. 4, 2006, pp. 1076-1087.

[52] NORMANDIN, F., SAWAN, M., FAUBERT, J., “A New Integrated Front-End for a Non-Invasive Brain Imaging System Based on Near-Infrared Spectroreflectometry”, IEEE Transactions on CAS-I, Vol. 52, no. 12, December 2005, pp. 2663-2671.

[51] HU, Y., SAWAN, M., “A Fully-Integrated Low-Power BPSK Demodulator for Implantable Medical Devices”, IEEE Transactions on CAS-I, Vol. 52, no. 12, December 2005, pp. 2552-2562.

[50] DJEBBI, M., ASSI, A., SAWAN, M., “Design of Monolithic Tunable CMOS Band-Pass Filter Using Current Feedback Operational Amplifiers”, Springer Analog ICs & Sig. Proc.  J., Vol. 45, no. 2, 2005, pp. 143-154.

[49] Boyogueno-Bende, A., SAWAN, M., SLAMANI, M., “Design for Stability of High-Speed Integrated Photoreceivers: A Tutorial”, Springer Analog ICs & SP J., Vol. 45, no. 1, October 2005, pp. 79-98.

[48] KASSEM, A., SAWAN, M., BOUKADDOUM, M., HAIDAR, A., “Perception SoC based on an ultrasonic array of sensors: Efficient DSP core implementation and subsequent experimental results”, EURASIP J. on Applied Signal Processing, Vol. 7, no. 11, August 2005, pp. 1071-1081.

[47] LU, Z., HU, Y., SAWAN, M., “A 900 mV 66 µW Sigma-Delta Modulator Dedicated to Implantable Sensors”, IEICE Transactions on Information and Systems, Vol. E88-D, no. 7, July 2005, pp. 1610-1617.

[46] BELLEMARE, F., PECCHIARI, M., BANDINI, M., SAWAN, M., D’ANGELO, E., “Reversibility of Airflow Obstruction by Hypoglossus Nerve Stimulation in Anesthetized Rabbits”, American Journal of Respiratory and Critical Care Medecine, Vol. 172, June 2005, pp. 606-612.

[45] KASSEM, A., SAWAN, M., BOUKADDOUM, M., “A New Digital Scan Conversion Architecture for Ultrasonic Imaging Systems”, J. of Circuits, Systems, and Computers, Vol. 14, No. 2, 2005, pp. 367-382.

[44] BUFFONI, L.X., SAWAN, M., COULOMBE, J., “Image Processing Strategies Dedicated to Visual Cortical Stimulators: A Survey”, Artificial Organs J., Vol 29, no 8, June 2005, pp. 658-664.

[43] SAWAN, M., HU, Y., COULOMBE, J., “Wireless Smart Implants Dedicated to Multichannel Monitoring and Microstimulation”, Invited paper in IEEE Circuits and Systems Magazine, Vol. 5, April 2005, pp. 21-39.

[42] COULOMBE, J., CARNIGUIAN, S., SAWAN, M., “A Power Efficient Electronic Implant for a Visual Cortical Stimulator”, Artificial Organs J., Vol. 29, no. 3, March 2005, pp. 233-238.

[41] HU, Y., SAWAN, M., EL-GAMAL, M., “An Integrated Power Recovery Module Dedicated to Implantable Devices”, Springer Analog ICs & Signal Processing J., Vol. 42, no. 3, February 2005, pp. 171-181.

[40] EL-SANKARY, K., ASSI, A., SAWAN, M., “New Sampling Method to Improve the SFDR of Wide Bandwidth ADC dedicated to next Generation Wireless Transceiver”, Journal of Circuits, Systems and Computers, Vol. 13, no. 6, October 2004, pp. 1183-1202.

[39] JECKELIN, E.G., GHANNOUCHI, F.M., SAWAN, M., “A New Adaptive Predistortion Technique Using Software-Defined Radio and DSP Technologies Suitable for Base Station 3G Power Amplifiers”, IEEE Trans. on Microwave Theory and Techniques, Vol. 52, No. 9, September 2004, pp. 2139-2147.

[38] HARB, A., SAWAN, M., “Low-Power CMOS Interface for Recording and Processing Very Low Amplitude Signal”, Kluwer Analog ICs & Signal Processing J., April 2004, Vol. 39, pp. 39-54.

[37] EL-SANKARY, K., SAWAN, M., “A Digital Blind Background Capacitor Mismatch Calibration for Pipelined ADC”, IEEE Trans. on CAS II, Vol. 51, No. 10, October 2004, pp. 507-510.

[36] FAYOMI, C., SAWAN, M., ROBERTS, G., “Reliable Circuit Techniques for Low-Voltage Analog Design in Deep Submicron Standard CMOS: A Survey”, Kluwer Anal. ICs & SP. J., Vol. 39, April 2004, pp. 21-38.

[35] SAWAN, M., CHEBLI, R., KASSEM, A., “Integrated Front-End Receiver for a Portable Ultrasound System”, Kluwer Analog ICs & Signal Processing J., August 2003, Vol. 36, pp. 57-67.

[34] CRAMPON, M.A., SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New easy to install nerve cuff electrode based on a shape memory alloy armature:  fabrication, modelling and experimental results”, Int. Journal of Biomedical Materials and Engineering, Vol. 12, No. 4, April 2002, pp. 392-395.

[33] HU, Y., SAWAN, M., “CMOS Front-end Amplifier Dedicated to Monitor Very Low Amplitude Signal from Implantable Sensors”, Kluwer Analog ICs & Signal Processing J., May 2002, Vol.33, pp. 29-41.

[32] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “New Frequency-Locked Loop Based on CMOS Frequency-to-Voltage Converter:  Design and Implementation”, IEEE Trans. on Circuits & Systems II, Vol. 48, No. 5, 2001, pp. 441-449.

[31] ABDEL-GAWAD, M., BOYER, S., SAWAN, M., ELHILALI, M., “Reduction of bladder outlet resistance by selective stimulation of the ventral sacral root using high frequency blockade : a study in chronic spinalized dogs”, The Journal of Urology, Vol. 166, No. 22, August 2001, pp. 728-733.

[30] SAWAN, M., Comments on paper J. Garvis, N. Rijkhoff “Functional Electrical Stimulation for Control of Internal Organ Function”, Neuromodulation, Vol. 4, no 4, April 2001, pp.163-164.

[29] BOYER, S., SAWAN, M., ABDEL-GAWAD, M, ROBIN, S., ELHILALI, M.M., “Implantable Selective Stimulator to Improve Bladder Voiding: Design and Chronic Experiments in Dogs”, IEEE Trans. on Rehabilitation Eng., Vol. 8, No. 4, December 2000, pp. 464-470.

[28] DONFACK, C., SAWAN, M., SAVARIA, Y., “An implantable measurement technique dedicated to the monitoring of electrodes-nerve contact in bladder stimulators”, Medical & Biological Engineering & Computing, Vol. 38, March 2000, pp. 465–468.

[27] CRAMPON, M.A., SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New easy to install nerve cuff electrode using SMA armature”, Artificial Organs Journal, Vol. 23, No. 5, May 1999, pp. 392-395.

[26] ASSI, A., SAWAN, M., “High Performance CMOS Transconductor for Mixed-signal Analog-Digital Applications”, Kluwer Analog ICs & Signal processing J., Vol. 19, June 1999, pp. 303-317.

[25] ARABI, K., SAWAN, M., “Electronic Design of a Multichannel Programmable Implant for Neuromuscular Electrical Stimulation”, IEEE Trans. on Rehabilitation Engineering, Vol. 7, No. 2, June 1999, pp. 204-214.

[24] ROBIN, S., SAWAN, M., ABDEL-GAWAD, M., ABDEL-BAKY, T.M., ELHILALI, M.M., “Implantable Stimulation System Dedicated for Neural Selective Stimulation”, Medical & Biological Engineering & Computing, Vol. 36, No. 4, July 1998, pp. 490-492.

[23] ASSI, A., SAWAN, M., ZHU, J., “An Offset Compensated and High-Gain CMOS Current-Feedback OP AMP”, IEEE Trans. on Circuits and Systems I, Vol. 45, No. 1, January 1998, pp. 85-90.

[22] PETRICAN, P., SAWAN, M., “Design of a Miniaturized Ultrasonic Bladder Volume Monitor and Subsequent Preliminary Evaluation on 41 Enuretic Patients”, IEEE Trans. on Rehabilitation Engineering, Vol. 6, No. 1, March 1998, pp. 66-74.

[21] ARABI, K., KAMINSKA, B., SAWAN, M., “On Chip Testing Data Converters Using Static Parameters”, IEEE Trans. on VLSI Systems, Vol. 6, No. 3, September 1998, pp. 409-419.

[20] SHAKER, H.S., TU, L.M., ROBIN, S., ARABI, K., HASSOUNA, M., SAWAN, M., ELHILALI, M.M., “Reduction of Bladder Outlet Resistance by Selective Sacral Root Stimulation Using High-Frequency Blockade in Dogs: An Acute Study”, The Journal of Urology, Vol. 160, September 1998, pp. 901-907.

[19] PROVOST, B., SAWAN, M., “Proposed New Bladder Volume Monitoring Device Based on Impedance Measurement”, Med. Biol. Eng. Comput, No. 35, November 1997, pp. 691-694.

[18] SAWAN, M., ARABI, K., PROVOST, B., “Implantable Volume Monitor and Miniaturized Stimulator Dedicated to Bladder Control”, Artificial Organs Journal, vol. 21, no 3, March 1997, pp. 219-222.

[17] ST-AMAND, R., SAWAN, M., SAVARIA, Y., “Design and Optimization of a Low DC Offset Current-Source Dedicated for Implantable Miniaturized Stimulators”, Kluwer Analog ICs & Signal Processing J., vol. 11, September 1996, pp. 47-61.

[16] SAWAN, M., HASSOUNA, M., LI, J.S., DUVAL F., ELHILALI, M.M., “Stimulators Design and Subsequent Stimulation Parameter Optimization for Controlling Micturition and Reducing Urethral Resistance”, IEEE Trans. on Rehabilitation Eng., Vol. 4, no 1, March 1996, pp. 39-46.

[15] ARABI, K., SAWAN, M., “Implantable Multiprogrammable Microstimulator Dedicated to Bladder Control”, Med. Biol. Eng. Comput., no 34, January 1996, pp. 9-12.

[14] RAHAL, A., BOSISIO, R.G., ROGERS, C., OVEY, J., SAWAN, M., MISSOUS, M., “A W-Band Medium Power Multi-Stack Quantum Barrier Varactor Frequency Tripler”, IEEE Microwave and Guided Wave Letters, Vol. 5, no 11, November 1995, pp. 368-370.

[13] LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F., ELHILALI, M.M., “Long Term Effect of Sphincteric Fatigue during Bladder Neurostimulation”, The Journal of Urology, Vol. 153, January    1995, pp. 238-242.

[12] HU, Y., SAWAN, M., “An improved technique for realization of switched-capacitor filters from LC networks”, The Canadian Journal of Elec. & Comp. Eng., Vol. 20, no. 1, January 1995, pp. 49-56.

[11] SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., “A New Transcutaneous Fully-Programmable Neural Stimulator”, The Int. J. of Microcomputer Applications, Vol. 13, no 3, March 1994, pp. 142-147.

[10] SAWAN, M., DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., “A Transcutaneous Implantable Bladder Controller”, Neurourology and Urodynamics, Vol. 13, no 3, December 1993, pp. 281-284.

[9]    SAWAN, M., DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M., “A New Bladder Stimulator: Hand-Held Controller and Miniaturized Implant; Preliminary Results on Dogs”, Biomedical Instrumentation and Technology, Vol. 27, March 1993, pp. 143-149.

[8]    HASSOUNA, M., LI, J.S., SAWAN, M., DUVAL, F., LATT, R., ELHILALI, M., “The Effect of Early Bladder Stimulation on Spinal Shock:  An Experimental Approach”, Urology, Vol. 40, no 6, Dec. 1992, pp. 563-573.

[7]    LI, J.S., HASSOUNA, M, SAWAN, M., DUVAL, F., ELHILALI, M.M., “Electrical Stimulation Induced Sphincter Fatigue during Voiding”, the Journal of Urology, Vol. 148, September 1992, pp. 949-952.

[6]    SAWAN, M., DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M.M., LACHANCE, J., LECLAIR, M., POURMEHDI, S., MOUINE, J., “Computerized Transcutaneous Control of a Multichannel Implantable Urinary Prosthesis”, The IEEE Trans. on Biomedical Engineering, Vol. 39, no 6, June 1992, pp. 600-609.

[5]    LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F., LATT, R., CARTER, K., COLLIER, B., M.M. ELHILALI, “Role of Electric Stimulation in Bladder Evacuation Following Spinal Cord Action”, The Journal of Urology, Vol. 147, May 1992, pp. 1429-1434.

[4]    NICOLAS, J., SAWAN, M., HÉTU, R., LAROCHE, C., “A Digitally Controlled Impulse Noise Generation System for the Study of the Ear Response to Impulses”, Acoustics, Vol. 70, 1990, pp. 112-126.

[3]    EL-RIFAEI, A., HASSOUNA, M., FOUDA, A., LATT, R., SAWAN, M., DUVAL, F., ELHILALI, M.M., “The Effect of Early Bladder Stimulation on Spinal Shock: a preliminary report”, The Journal of Urology, Vol. 141, April 1989, pp. 1010-1013.

[2]    LAROCHE, C., HÉTU, R., SAWAN, M., NICOLAS, J., “Preliminary Study of the Effect of the Spectral Content of Impulsive Noises on the Acquisition of Auditory Fatigue”, Can. Acoustics, Vol. 14, No.3, 1986, pp. 31-47.

[1]    HÉTU, R., LAROCHE, C., SAWAN, M., NICOLAS, J., “The Development of a Computerized Noise Generator for the Study of the Effects of Impulse Noise on Hearing”, 110th Acoustical Society of America Meeting, Tennessee, November 4-8, 1985.

B. Publications de livres et chapitres de livres

[16] SAWAN, M., “Handbook of Biochips”,Handbook, Springer,in preparation, estimated date to bereleasedis 2021, 1000 pages.

[15] KASSAB, A., SAWAN, M., “The NIRS Cap: Key Part of EmergingWearable Brain-Device Interfaces”, Book Chapter, Chemometrics and Near-InfraredSpectroscopy, Intech Open Science, ISBN 978-953-51-4953-8, 2017.

[14] TRIGUI, A., MEHRI, S., AMMARI, A., BENHADJSLAMA, J., SAWAN, M., “Prosthetic Power Supplies”, Invited publication, Encyclopedia of Electrical and Electronics Engineering, Book Chapter, John Wiley& Sons, 2015.

[13] NABOVATI, G., SAWAN, M., “Capacitive SensorArrays”, Invited publication, Encyclopedia of Electrical and Electronics Engineering, Book Chapter, John Wiley& Sons, 2015.

[12] BHUNIA, S., MAJERUS, S., SAWAN, M., “Implantable Biomedical Microsystems: Design Principles and Applications”, Elsevier,2015.

[11] MILED, A., SAWAN, M., “Brain-machine Interfaces for cell manipulation and detection”, Book Chapter, Bioelectronics, Cambridge UniversityPress, 2014.

[10] TARIQUS-SALAM M., SAWAN, M., “EEG recordingdevice for epileptogenic zone localization”, Book Chapter,Principles and Applications of Biomedical Engineering, AcademyPublish,2013.

[9]   LESAGE, F., SAWAN, M., KAMRANI, E., “Near-Infrared Light Detectionusing CMOS Silicon Avalanche Photodiodes (SiAPDs),” in The Wonder of Nanotechnology: Quantum OptoelectronicDevices and Applications, Razeghi et al, SPIE Press, Bellingham, pp. 491-531, 2013.

[8]   GOSSELIN, B., SAWAN, M., “Embedded Medical Microsystems: Neural recording implants”,Design Technology forHeterogeneous Embedded Systems: Design Theory and Practice”, Heausgeber et al, Book Chapter,Springer Netherlands, 480 p., 2011.

[7]   MOUNAIM, F., SAWAN, M., “New Neurostimulation Strategy and Corresponding Integrated Circuits to EnhanceBladderFunctions”,Book Chapter,Intech, Jan. 2011, pp. 79-92.

[6]   GHAFAR-ZADEH, E., SAWAN, M., “CMOS Capacitive Sensors for Lab-On-Chip Applications”, Book, Springer Editor, 2010, 250p.

[5]   NADERI, A., SAWAN, M., SAVARIA, M., “UndersamplingDela-Sigma Modulators: Theory, Design andImplementation”, Lambert AcademicPublishers, Book Chapter, 2009.

[4]   SAWAN, M., GOSSELIN, B., “Embedded Medical Microsystems: Neural recording implants”, VLSI Circuit Design for Biomedical Applications, Book Chapter, Angus and Robertson, 2009.

[3]   SAWAN, M., “L’Homme réparé : succès et limites de l’implantologie”, Book Chapter, Guidon, R., Laval University, 2004.

[2]   MOUINE, J., SAWAN, M., “AuditoryAids”, Invited publication, Encyclopedia of Electrical and Electronics Engineering, Book Chapter, John Wiley& Sons, 1998, p. 651-660.

[1]   DJEMOUAI, A., SAWAN, M., “Prosthetic Power Supplies”, Invited publication, Encyclopedia of Electrical and Electronics Engineering, Book Chapter, John Wiley& Sons, 1998, p. 413-420.

C. Brevets d’inventions reçus et demandés

[18] GHARIB, I., SAWAN, M., “Portable Three-Dimensions (3D) Interferometric Fluorescence Microscopy”, Pending, December2019.

[17] AKBARI, M., SAWAN, M., “A High-Performance Fourth-OrderMulti-Stage Noise Shaping SAR ADC”, Pending, France, December 2019.

[16] MIRBOZORGI, A., SAWAN, M., GOSSELIN, B., “Smart MulticoilsInductively-coupledArray for Wireless Power Transmission”, Pending, US 61/840584, June 2013, and PCT/IB2014/062595, June 2014.

[15] SAWAN, M., LESAGE, F., LAREAU, E., LELAN, J., “MiniaturizedFunctional Near-InfraRedSpectrometer”, Pending, Sept. 2012.

[14] HASHEMI, M., SAWAN, M., SAVARIA, Y., “High-power Efficiency Active Rectifier Dedicated for Implantable devices”, Pending, Dec. 2012.

[13] BLAQUIÈRE, Y., SAVARIA, Y., BASILE-BELLAVANCE, Y., VALORGE, O., LAHKSSASSI, A., ANDRÉ, W., LAFLAMME-MAYER, N., BOUGATAYA, M., SAWAN, M., “Methods, Apparatus and System to Support Large-ScaleMicro-SystemsIncluding Embedded and Distributed Power Supply, Thermal Regulation, Multi-DistributedSensors and Electrical Signal Propagation”, US Patent App.13/782,868, and WO Patent 2 012 031 362, Mar. 2012.

[12] MILED, A., ZHENG, Y., SAWAN, M., “Reconfigurable ModularMicrofluidic System and Method”, PCT/CA2012/050314, WO 2012/155266, Nov. 2012.

[11] MOUNAIM, F., SAWAN, M., “New sacral neurostimulation method to enhancemicturition in paraplegics”, US2011-0071590A, March 2011.

[10] TARIQUS-SALAM, M., SAWAN, M., “Epilepticseizuredetectionalgorithm for an implantable micro-system”, Pending, Dec. 2010.

[9]   SAWAN, M., HARVEY, JF., and 5 Others “Body Electronic Implant and Artificial Vision System Thereof”, China CN1207067C June 2005, USA US7027874 April 2006, Europe EP1333883 B1 August 2006, Europe EP1721633 A3 November 2006, Japan No 2002-542464, Canada No 2427867, Mexico No PA/a/2003/004320.

[8]   GOSSELIN, B., SAWAN, M., “Low Power Bioamplifierswith an active DC Rejection Scheme”, Pending, USPTO 60747723, May 2006.

[7]   SAWAN, M., SALEH, A., MOUNAIM, F., ELHILALI, M., CORCOS, J., “A Method and System for Estimating the Volume and the Pressure of a Bladder”, Pending No US 60/862549, November2006.

[6]   EL-SANKARY, K., SAWAN, M., “Circuit Calibration Using Voltage Injection”, WO/2006/092055, Sep. 2006.

[5]   JECKELN, E.G., GHANNOUCHI, F.M., SAWAN, M., BEAUREGARD, F., “Adaptive PredistortionDevice and Method using Digital Receiver”, US 7035345, April 2006.

[4]   SAWAN, M., BELLEMARE, F., DIDO, J., DESILETS, T., “Catheter for Transdiaphragmatic Pressure and EMGdiMeasurementsusingHelicoidalElectrodes”, Pending, US Appl. No.: 10759375,Filed in Jan. 2004.

[3]   SAWAN, M., ELHILALI, M., “ElectronicStimulator Implant”,European patent, Pending, 01946797, 2001,Japan, Pending, JP2003-520653A, 2003, Canada, Pending, 2397957, 2001, PCT/CA01/00074, Pending, 2001.

[2]   SAWAN, M., ELHILALI, M., “ElectronicStimulator Implant for Modulating and SynchronizingBladder and Sphincter Function”, Patent, US 6,393,323, May 2002.

[1] JECKELN, E.G., GHANNOUCHI, F.M., SAWAN, M., “Adaptive Digital Predistortion for Power Amplifierswith Real Time Modeling of MemorylessComplex Gain”, US 6,072,364, June 2000.

D. Conférenciers invité

[297]  Toward Smart Microsystems for Effective Recovery of Brain Functions, Keynote, ICFEICT, Changsha, 22 May, 2021

[296]  “Intelligent Microsystems to Predict Neurodegenerative Diseases and Enhance Health Conditions”, Keynote, ICoIAS, Wuhan, 15 May, 2021

[295]  “Smart Medical Devices to Predict and Enhance Health Conditions”, Plenary, IET 150 Anniversary, Hangzhou, 30 April, 2021

[294]  “Open Innovation of International Personnel”, Talk, International Open Innovation Symposium, MOST Annual Meeting, Shenzhen, 14 April, 2021

[293]  “Cells Manipulation and Characterization for the Treatment of Neurodegenerative Diseases”, Keynote, China Anti-Aging Promotion Association Meeting, Chengdu, 31 March, 2021

[292]  “Cutting Edge Net of Biomedical Research and Innovation (CenBRAIN): Review”, Lecture, BME Group of Zhejiang University, Westlake University, Hangzhou, 13 March, 2021.

[291]  “Open Innovation of International Personnel”, Invited Talk, Foreign Experts Innovation Policy Salon, Hall of Science and Technology, Beijing, 19 Dec., 2020.

[290]  “Will Sciences and Technologies Becoming Enough Powerful to Mimic the Brain?”, Invited Seminar, BEE Talks, Bordeaux Virtual (https://www.youtube.com/watch?v=6HcBoiLPxD8), France, 17 Dec., 2020.

[289]  “Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, IEEE-ICCS’20, Chengdu Virtual, China, 11 Dec. 2020.

[288]  “Post-COVID Wearable Virus Detector: A Personalized Generic Approach”, Keynote, Nanjing International Healthcare Forum, Nanjing, China, 10 Dec., 2020.

[287]  “Neurotechnology to Discover and Recover Vital Functions”, Invited Seminar, SUSTech University, Shenzhen, China, 04 Dec. 2020.

[286]  “Opportunities and challenges may China face”, Lecture, Foreign Experts Seminar, Talent Research Center, MOST, Nanjing, China, 24 Nov. 2020.

[285]  “Emerging Techniques to Diagnose and Treat Neurodegenerative Diseases”, Keynote, EmTech China, Suzhou, China, 20 Nov. 2020.

[284] “Biodevices for the Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, IEEE-ICOEO’20, Chengdu, China, 04 Nov. 2020.

[283]  “RF Links to Connect Smart Medical Devices to Remote Hosts: Circuits Techniques and Case Studies”, Keynote, AI, Radar Technology, and Industry Development Forum, Wuxi, China, 30 Oct. 2020.

[282]  “Toward Efficient Brain Microdevices to Recover Neurodegenerative Vital Functions”, Keynote, The 4th Global Programmers’ Festival, Xi’an, China, 24 Oct. 2020.

[281]  “Machine Learning Techniques to Predict the Evolution of Vital Functions: Case Studies”, Invited Seminar, Shanghai Jiao Tong University, Shanghai, China, 16 Oct. 2020.

[280]  “Are sciences & technologies becoming enough powerful to mimic the brain”, Seminar, Scientific Perspectives of the World, Westlake University, Hangzhou, China, Sep. 2020.

[280]  “Recovering Neurodegenerative Functions: Diagnosis, Detection and Prediction”, Keynote, Future Youth ZGC Forum: Digital Transformation of Technology and Industry, Beijing, 26 Aug. 2020.

[279]  “AI to Predict Evolution of Vital Functions: Epileptic Seizures and Bladder Filling Case Studies”, Keynote, 3rd IVPAI Conference, Shanghai, 22 Aug. 2020.

[278]  “Treatment’s Challenges of Neurodegenerative Diseases”, Keynote, The 1st Arab Science Week (ASW), Cairo Virtual, Egypt, 05 July 2020.

[277]  “Biosystems for the Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, 3rd NYU Biomedical and Biosystems Conference, AbuDhabi, Jan. 2020.

[276]  “Hybrid Bioelectronics for the Treatment of Neurodegenerative Diseases”, Keynote, IEEE ICM, Cairo, Egypt, Dec. 2019.

[275]  “Analog and Mixed-signal Techniques to Face Persistant Neurodegenerative Diseases”, Keynote, 15th Chinese Electronic Information Deans Forum, Hangzhou, China, Dec. 2019.

[274]  “Bioengineering Innovations to Address Persistent Brain Disorders”, Keynote, FTChinese, Hangzhou, China, November 2019.

[273]  “Implantable Brain Microdevices for the Treatment of Neurodegenerative Diseases”, Keynote, ASICON, Chongqing, China, October 2019.

[272]  “Towards the Prediction of Epileptic Seizures: A multidisciplinary Approach”, Invited Seminar, NCTU, Taiwan, October 2019.

[271]  “Detect and Predict Epileptic Seizures: A multidisciplinary Approach”, Keynote AVIC, Taiwan, October 2019.

[270]  “Wearable and Implantable Devices to Locate, Detect and Predict Epileptic Seizures”, Keynote, ICABME, Tripoli, Lebanon, 18 October 2019.

[269]  “Toward Intracortical Microsystems for the Recovery of Vision for the Blinds”, Invited Seminar, SINANO, Suzhou, September 2019.

[268]  “Recovering Neurodegenerative Functions: Diagnosis, Detection and Prediction”, Keynote, IVPAI’19, Shanghai, August 2019.

[267]  “Understanding and Treating Neurodegenerative Diseases: A Multidimensional Challenging Approach”, Invited Seminar, Zhejiang Univ., BME Dept., Hangzhou, August 2019.

[266]  “Embedded Circuits and Systems for Emerging Harsh-Environment Applications”, Invited Seminar, NorthWestern Polytech. Univ (NWPU), Xi’An, Shaanxi, August 2019.

[265]  “Wearable and Implantable Medical Devices for Remote Sensing and Treatment”, Keynote, MIT Technology Review, Shanghai, July 2019.

[264]  “Emerging Neurotechnology to Recover Vital Health Functions”, Invited Seminar, Westlake University, Hangzhou, China, July 2019.

[263]  “Understanding Neurodegenerative Diseases to Recover Vital Functions”, Invited Seminar, Beihang Univ, Beijing, July 2019.

[262]  “Biodevices: Achievements and Technology Transfer”, Keynote, Hangzhou, China, June 2019.

[261]  “Trends Shaping Opportunities for Neurodegenerative Diseases Treatment”, Plenary, IEEE-ISCAS, Sapporo, Japan, May 2019.

[260]  “Brain-based Microdevices for the Treatment of Neurodegenerative Diseases”, First Int’l Symposium on Urban Brain Technology in China (ISCCBT), Keynote, Shanghai, March 2019.

[259]  “Epileptic Seizures: Can Deep Learning Meets Predicting Expectation?”, Keynote, New Trends in Biosensors and bioelectronics, KAUST, Thuwal, Saudi Arabia, February 2019.

[258]  “Circuit Techniques Intended for Smart Brain-Machine Interfaces”, Intensive 6-hours Course – ACTS19, Tsinghua University, Shenzhen, China, January 2019.

[257]  “Brain-microsystem interfaces for the diagnosis and treatment of neurodegenerative diseases”, Invited Seminar, The Chinese Academy of Sciences, Hangzhou, China, Dec. 2018.

[256]  “Seizure Localisation and Subsequent Treatment: From Wearable Optode Array to Mandatory Implantable Devices”, Invited Seminar, Zhejiang University, Hangzhou, China, Nov. 2018.

[255]  “Epileptic Seizures: Can Deep Learning Meets Predicting Expectation”, Invited Seminar, uDSD Research Center, Daegu, South Korea, Nov 2018.

[254]  “Toward High-Precision Brain Imaging for Efficient Seizures Localization, Detection, and Abortion”, Invited Seminar, SJTU, Shanghai, China, May 2018.

[253]  “Interfaces cerveau-microsystèmes sans fil pour la récupération de fonctions neurodégénératives”, Keynote, ACFAS 2018, Chicoutimi, Canada, May 2018.

[252]  “Neurotechnology Microdevices for Neurodegenerative Diseases: A Multidisciplinary Approach”, Seminar, Westlake University, Hangzhou, China, April 2018.

[251]  “Localising epileptic activities through superparamagnetic nanoparticules”, Seminar, RBIQ, Montreal, March 2018.

[250]  “Heterogeneous Microsystems for the Treatment of Brain-originated Diseases”, Keynote, ETBET, Qatar, February 2018.

[249]  “Smart Medical Microdevices for the Treatment of Neurodegenerative Diseases”, Seminar, School of Automation Science and Electrical Engineering, Beihang University, Beijing, China, Jan. 2018.

[248]  “Smart Medical Microdevices for the Treatment of Neurodegenerative Diseases”, Seminar, Academy of Mathematics and Systems Science, Chinese Academy of Sciences, Beijing, China, Jan. 2018.

[247]  “Intracortical Microdevices for the Treatment of Neurodegenerative Diseases”, Seminar, Wuhan University, Wuhan, China, Jan. 2018.

[246]  “Epileptic Seizures Management: Localization, Onset Detection and Abortion”, Keynote, FETCH, Saint-Malo, France, Jan. 2018.

[245]  “Circuits and Systems for the Diagnosis and treatment of Neurodegenerative Diseases: Multidimentional Challenges”, Seminar, Guangdong University of Technology, Guangzhou, China, Nov. 2017.

[244]  “Lab-on-Chip Based Biosensors for the Diagnostic of Neurodegenerative Diseases”, Seminar, SJTU, Shanghai, China, Oct. 2017.

[243]  “Management of the Bladder Functions with Spinal Impairment: Monitoring and Subsequent Neurostimulation”, Keynote, IEEE-ICABME, Beirut, Lebanon, Oct. 2017.

[242] “Brain-Microsystem Interfaces for the Diagnostic and Treatment of Neurodegenerative Diseases”, Seminar, NCTU, Taipei, Taiwan, Oct. 2017.

[242]  “Neurodegenerative Diseases: Multidimensional Implementation Challenges”, Keynote, SEMICON, Taipei, Taiwan, Oct. 2017.

[241] “Addressing Neurodegenerative Diseases: A Multidisciplinary Approach”, Seminar, EEE Dept, NTU, Singapore, Oct. 2017.

[240]  “Brain-Microsystem Interfaces for the Diagnostic and Treatment of Neurodegenerative Diseases”, Seminar, MediaTeck, Singapore, Aug. 2017.

[239]  “Brain- Microsystem Interfaces for the Discovery and Treatment of Neurodegenerative Diseases”, Keynote, CKC 2017, Montreal, July 2017.

[238] “Are Brain-microsystems Interfaces Ready for Efficient Diagnosis and Treatment of Neurodegenerative Diseases?”, Keynote, IEEE-Canadian Conf. Elec. Comp. Eng., Windsor, Canada, May 2017.

[237]  “Smart Medical Devices for the Discovery and Treatment of Neurodegenerative Diseases”, Keynote, IEEE-European Test Symposium, Limassol, Cyprus, May 2017.

[236]  “Smart Medical Devices: Industrial opportunities and Rewarding Researches”, Keynote, Microelectronics Industrial Alliance, Montreal, Canada, March 2017.

[235]  “Multichannel Neural Sensing and Microstimulation Devices: Design and Implementation Challenges”, Keynote, U-MediaTek Workshop, Singapore, Jan 2017.

[234]  “Circuits, Microsystems and Packaging Techniques Intended for Autonomous Brain-Machine Interfaces”, Intensive Course, GIAN Program, NewDelhi, India, Dec 2016.

[233]  “Smart Brain-Bioelectronic Interfaces for Understanding and Subsequent Treatment of Numerous Neurodegenerative Diseases”, Keynote, JDSI, Casablanca, Dec 2016.

[232] “Toward Brain-Area Networks for the Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, IMAPS, Lyon, France, Dec 2016.

[232]  “Wearable and Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases”, Invited Seminar, NCKU, Tainan, Taiwan, Nov 2016.

[231]  “Wearable and Implantable Devices for Sensing and Treatment of Neurodegenerative Diseases”, Keynote, MicroDSD, Korea, Oct 2016.

[230]  “Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, Bernstein Sparks Workshop, Delmenhorst, Germany, Oct 2016.

[229]  “Toward Multimodal Massively Parallel Multichannel Brain-Sensing Interfaces”, Invited Talk, IEEE SMC, Budapest, Hungary, Oct 2016.

[228]  “Lab-on-Chip Based Biosensors for Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, IEEE-MECBME, Beirut, Lebanon, Oct 2016.

[227]  “Toward an Implantable Intracortical Microsystem for the Recovery of Vision for the Blind”, Keynote, The Eye and the Chip, Detroit, USA, Sept 2016.

[226] “Connecting Wearable and Implantable Medical Devices to Internet for Remote Sensing and Treatment”, Keynote, IEEE-HealthCom, Munich, Germany, Sept 2016.

[225]  “Wearable and Implantable Medical Devices for Diagnostic and Treatment of Neuro-degenerative Diseases”, Invited Seminar, Shanghai Mental Health center, China, July 2016.

[224]  “Biosensors and Bioactuators for Diagnostic and Treatment of Neurodegenerative Diseases”, Invited Seminar, SoME, SJTU, Shanghai, China, July 2016.

[223]  “Engineering Practice to Help Human Recover Vital Neural Functions”, Invited Seminar, Summer School, SJTU, Shanghai, China, July 2016.

[222]  “Implantable Bioelectronics for the Diagnostic and Treatment of Neurodegenerative Diseases”, Invited Seminar, Changsha, China, July 2016.

[221]  “Strategic Microsystems Alliance of Quebec: Major Resources and Multidisciplinary Researches”, Seminar, Laval University, Ste-Foy, Canada, June 2016.

[220]  “Lab-on-CMOS-Chip based Cell Manipulation and Monitoring for Diagnostic and Treatment of Neurodegenerative Diseases”, Keynote, CASFEST, Montreal, May 2016.

[219]  “Implantable Neurotechnologies: from Circuits and Signals to Systems and Applications: BMI Case studies”, Tutorial, IEEE-ISCAS, Montreal, May 2016.

[218]  “Toward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases”, Keynote, Nano-Tera, EPFL, Lausanne, Switzerland, April 2016.

[217]  Sawan, M., “Toward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases”, Invited Seminar, King Abdallah University (KAUST), Thuwal, Saudi Arabia, March 2016.

[216]  Sawan, M., “Toward Brain-Microsystem Interfaces for the Treatment of Neurodegenerative Diseases”, Invited Seminar, King Abdulaziz University (KAU), Jeddah, Saudi Arabia, March 2016.

[215] “Toward Brain-Machine-Brain Interfaces for the Treatment of Neurodegenerative Diseases”, Keynote, IEEE-ISOCC, Gyeongju, South Korea, November 2015.

[214]  “Implantable Microdevices for the Recovery of Neural Functions”, Keynote, IEEE-ISBB, Beijing, October 2015.

[213]  “Are Invasive Bioelectronics Mandatory to Treat Neurodegenerative Diseases?”, Invited Talk, SJTU, Shanghai, China, October 2015.

[212]  “Seizure onset detection and subsequent treatment through direct intracortical processing”, Invited Talk, Epilepsy & Treatment, Baltimore, USA, September 2015.

[211]  “Heterogeneous Microdevices for the Recovery of Neural Functions”, Keynote, IEEE-ICABME, Beirut, Lebanon, September 2015.

[210]  “Interfaces cerveau-machines pour la récupération des fonctions vitales”, Invited Talk, NOÖS, Montreal, July 2015.

[209]  “Brain-microsystem Interfaces for the Recovery of Neural Functions”, Invited Talk, NAMIS, Montreal, 2015.

[208]  “Toward Brain-Machine-Brain Interfaces for the Recovery of Vital Functions”, Invited Talk, UCL, Brussels, Belgium, June 2015.

[207]  “Brain-Computer-Brain Interfaces for Sensing and Subsequent Treatment”, Keynote, CIIA, Saida, Algeria, May 2015.

[206]  “Smart Implantable Brain-Machine Interfaces Intended for Sensing and Subsequent Treatment”, Tutorial, ISCAS, Lisbon, Portugal, May 2015.

[205]  “Engineering Neurosensing and Treatment Through Heterogeneous Devices”, Invited Seminar, HKUST, Hong Kong, March 2015.

[204]  “Challenges of Wirelessly Managing Power and Data for Wearable and Implantable Medical Devices”, Keynote, eHealthForHumanity, MCETECH, Montreal, May 2015.

[203]  “Brain-Machine-Brain Interfaces for Sensing and Subsequent Treatment”, Tutorial, IEEE-ICM, Doha, Qatar, December 2014.

[202]  “Toward Brain-Machine-Brain Interfaces for the Recovery of Vital Functions”, Invited Talk, Université Paul-Sabatier, Toulouse, France, December 2014.

[201]  “Microsystems for neuroengineering sensing and treatment”, Keynote, ICESTI, Annaba, Algeria, Oct 2014.

[200]  “Motivation and Outcomes in National and International Academic Collaboration”, Keynote, CITEF, Beirut, Lebanon, October 2014.

[199]  “Estimation of Bladder Volume from Afferent Neural Activity”, Invited Talk, ACRM, Toronto, Canada, 2014.

[198]  “Bio-Microsystems for Neuroscience Treatments”, Invited Talk, University of Alberta, Edmonton, Canada, September 2014.

[197]  “Sensing and Treatment using Smart Implantable Brain-Machine Interfaces”, Summer School Tutorial, Tainan, Taiwan, September 2014.

[196]  “Circuits and Systems for Low-Power Budget Applications”, Invited Seminar, Huawei, Ottawa, Canada, September 2014.

[195]  “Biosensors and prostheses for neurorecording and neurostimulation”, Invited Seminar, University Federal of Santa Catarina, Florianopolis, Brazil, August 2014.

[194]  “Challenges of Wirelessly Managing Power and Data for Implantable Bioelectronics”, Invited Seminar, Cyber-Physical Systems Summer School, Grenoble, France, July 2014.

[193]  “Multimodal Wearable Brain-Computer Interface for Clinical Imaging Applications”, Invited Talk, CMOS Emerging Technology Workshop, Grenoble, France, July 2014.

[192]  “Toward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases”, Keynote, FTFC, Monte Carlo, Monaco, May 2014.

[191]  “Implantable Brain-Computer Interfaces for Parallel Neurosensing and Subsequent Treatment”, Invited Seminar, CREATE SSI, Montreal, May 2014.

[190]  “Toward Brain-Machine Interfaces for Diagnostic and Treatment of Complex Neural Diseases”, Invited Seminar, KUSTAR, AbuDhabi, UAE, April 2014.

[189]  “Implantable Brain-Machine Interfaces for the Recovery of Neuromuscular Vital Functions”, Keynote, MELECON, Beirut, Lebanon, April 2014.

[188]  “Challenges of Wirelessly Managing Power and Data for Implantable Bioelectronics”, Keynote, ISBB, Taipei, Taiwan, April 2014.

[187]  “Brain-Machine Interfaces for Neurorecording and Subsequent Diseases Treatment”, Keynote, LAAS, Beirut, Lebanon, March 2014.

[186]  “Microsystèmes pour redonner la vue aux aveugles”, Invited Seminar, College André-Grasset, Montréal, Jan. 2014.

[185]  “Wireless Energy Recovery Intended for Implantable Medical Devices”, Invited Talk, FETCH Workshop, Ottawa, Canada, Jan. 2014.

[184]  “Microsystems to Restore Sight to the Blind”, Invited Talk, USEK, Kaslik, Lebanon, December 2013.

[183]  “Smart Medical Devices”, Half-Day Tutorial, USEK, Kaslik, Lebanon, December 2013.

[182]  “Dispositifs médicaux intelligents pour la récupération des fonctions neurologiques vitales : Vision et épilepsie”, Invited Seminar, Université de Lorraine, Nancy, France, December 2013.

[181]  “Recovery of Neuromuscular Vital Functions Through Implantable Brain-Machine Interfaces”, Invited Talk, IEEE CASS Student Chapter, Paris, France, December 2013.

[180]  “Dispositifs médicaux intelligents pour la récupération des fonctions neurologiques vitales : Vision et épilepsie”, Invited Seminar, ICube Lab, Strasbourg, France, December 2013.

[179]  “Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales : vision et épilepsie”, Invited Seminar, ISEP, Paris, France, November 2013.

[178]  “Advanced Biomedical Circuits & Systems”, Half-Day Tutorial, ISEP, Paris, France, November 2013.

[177]  “Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales : vision et épilepsie”, Invited Talk, Estia Lab, Biarritz, France, November 2013.

[176]  “Advanced Biomedical Circuits & Systems”, Full-Day Tutorial, Université de Bordeaux-IMS Lab, Bordeaux, France, November 2013.

[175]  “Fully Integrated RF Circuits for Efficiently Harvesting Electromagnetic Energy”, Keynote, IEEE-AVIC, Montreal, Canada, October 2013.

[174]  “Advanced Biomedical Circuits & Systems”, Full-Day Tutorial, Université de Lorraine, EASE Lab, Metz, France, October 2013.

[173]  “Interfaces cerveaux machines pour la récupération des fonctions neurologiques vitales : vision et épilepsie”, Invited Seminar, IEEE-Quebec Section, Quebec, Canada, October 2013.

[172]  “Harvesting Energy and Wireless Data Exchange with Implantable Medical Devices”, Keynote, IEEE-ICABME, Tripoli, Lebanon, September 2013.

[171]  “Will Emerging Implantable Brain-Machine Interfaces Achieve Expected Impact?”, Invited Talk, Chengdu, China, July 2013.

[170]  “Microsystems to Restore Sight to the Blind”, Invited Talk, Summer Camps, SoE, SJTU, Shanghai, China, July 2013.

[169]  “Advanced Biomedical Circuits and Systems”, One Month Tutorial, SoE, SJTU, Shanghai, China, July 2013.

[168]  “Will Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Neural Diseases?”, Invited Talk, Hefei, China, July 2013.

[167]  “Will Emerging Brain-Machine Interfaces Achieve Expected Diagnostic and Treatment of Diseases?”, Invited Seminar, ENSTA Bretagne, Brest, France, June 2013.

[166]  “Harvesting Energy and Wireless Control of Implantable Medical Devices”, Keynote, ISWPT, Guiyang, China, May 2013.

[165]  “Harvesting Energy and Wireless Data Links for Implantable Bioelectronics”, Invited Seminar, Chinese Academy of Sciences, Shanghai, China, May 2013.

[164]  “Sacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding”, Invited Seminar at CRME, Shanghai, China, May 2013.

[163]  “Wirelessly Powered Intracortical Brain-Machine Interfaces for Vision and Epilepsy Treatments”, Invited Seminar, Universidade do Sao Paula, Sao Paulo, Brazil, Apr. 2013.

[162]  “Energy Harvesting and Wireless Data Exchange for Implantable Medical Devices”, Invited Seminar, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil, Apr. 2013.

[161]  “Harvesting Energy and Wireless Links for Biosystems”, Invited Seminar, FUSC, Florianpolis, Brazil, Mar. 2013.

[160]  “Advanced Biomedical Circuits and Systems”, One Month Tutorial, FUSC, Florianpolis, Brazil, Mar. 2013.

[159]  “Emerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases”, Invited Seminar, FUSC, Florianpolis, Brazil, Mar. 2013.

[158]  “Microsystèmes pour redonner la vue aux aveugles”, Invited Seminar, College André-Grasset, Montréal, Feb. 2013.

[157]  “Harvesting Energy and Wireless Links for Biosystems”, Invited Seminar, KFUPM, Saoudi Arabia, Feb. 2013.

[156]  “Emerging Smart Medical Devices Dedicated for Diagnostic and Treatment of Diseases”, Invited Seminar, KFUPM, Arabie Saoudite, Feb. 2013.

[155] “Will Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?”, Invited Seminar, UQAM, Montréal, Feb. 2013.

[154]  “Will Emerging Brain-Machine Interfaces Achieve Breakthrough Treatment of Diseases?”, IEEE-Solid-State Circuits Society DL Tutorial, Sfax Tunisia, Jan 2013.

[153]  “Wireless Brain-Machine Interfaces for Neurosensing and Subsequent Treatment”, Keynote at IEEE-ICM, Alger, Algeria, Dec 2012.

[152]  “Brain-Machine Interfaces for the Recovery of Neural Vital Functions”, Keynote at ACTEA, Kaslik, Lebanon, Dec 2012.

[151]  “Wireless Brain-Machine Interfaces for Neurosensing and Stimulation: Multidimentional Challenges in Building Embedded systems”, Keynote at ICESTI, Algeria, Nov 2012.

[150]  “Brain-Machine Biosensing and Treatment Interfaces and Techniques”, IEEE-Solid-State Circuits Society Distinguished Lecture (DL) Tutorial, Pretoria, South Africa, Oct. 2012.

[149]  “Brain-Computer Interfaces for Massively Parallel Neurorecording and Microstimulation”, Keynote at UCWSNW, Cairo, Egypt, Oct. 2012.

[148]  “Brain-Machine-Brain Interfaces and Techniques”, Invited Seminar, Nice, France, 24 Sept. 2012.

[147]  “Wireless Brain-Machine Biosensing and Treatment Interfaces and Techniques”, IEEE-Solid-State Circuits Society DL Tutorial, Bengalore, India, July 2012.

[146]  “Wireless Brain-Machine Biosensing and Treatment Interfaces and Techniques”, IEEE-Solid-State Circuits Society DL Tutorial, NewDelhi, India, July 2012.

[145]  “Will Emerging Biochips Achieve Breakthrough Treatment of Brain Diseases ?”, Invited Talk, Neuro-Electronics Summer Camp, Shanghai, China, July 2012.

[144]  “Massively Parallel Intracortical Sensing and Subsequent Treatment”, Invited Talk, FTFC, Paris, June 2012.

[143]  “Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation”, Invited Talk, Hitachi, Tokyo, Japan, May 2012.

[142]  “Challenging Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment”, Invited Talk NAMIS, Sendai, Japan, May 2012.

[141]  “Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation”, IEEE-SSCS DL, Kansai, Osaka, Japan, May 2012.

[140]  “Brain-Machine-Brain Interfaces for Massively Parallel Neurorecording and Microstimulation”, IEEE-Solid-State Circuits Society DL, Tokyo Institute of Technology, Tokyo, Japan, May 2012.

[139]  “Brain-Machine-Brain Interfaces: Challenging Implantable Microsystems for Sensing and Subsequent Treatment”, Invited Talk, Seoul, Korea, May 2012.

[138]  “Challenging Brain-Machine-Brain Interface Implementation for Sensing and Subsequent Treatment”, Invited Talk, Biomedical conference series, McGill University, Montreal,  Mar 2012.

[137]  “Multidimentional Challenges in Building Microsystems for Massively Parallel Wireless Neurorecording”, Keynote at Semba-Biopro Workshop, Taipei, Taiwan, 11 Feb 2012.

[136]  “Microsystèmes pour redonner la vue aux aveugles”, Invited Seminar, College André-Grasset, Montréal, 2 Feb 2012.

[135]  “Intracortical Interfaces for Multichannel Sensing and Subsequent Treatment”, Keynote at The Annual BETRC-NCTU Workshop, Tainan, Taiwan, 3 Dec 2011.

[134]  “Sacral Recording and Direct Stimulation Strategies for Enhancing Bladder Voiding”, Invited Talk, 10th Annual C. Tator-B. Turnbull Lectureship Series in Spinal Cord Injury, Toronto, Canada, Nov 2011.

[133]  “Smart Brain Interfaces for Sensing and Subsequent Treatments”, Keynote, IEEE-CID, Albany, USA, Oct 2011.

[132]  “Implantable Biochips for Wireless Brain-Machine-Brain Interfaces”, IEEE-Solid-State Circuits Society DL, Hong Kong, China, 2011.

[131]  “Smart Brain Interfaces for Diagnostic and Subsequent Treatments”, Seminar, SJTU, Shanghai, 28 Sept 2011.

[130]  “Biochips for Wireless Brain-Machine-Brain Interfaces”, IEEE-Solid-State Circuits Society, Beijing, China, 27 Sept 2011.

[129]  “Smart Biochips for Wireless Brain-Machine-Brain Interfaces”, IEEE-Solid-State Circuits Society, Shanghai, China, 30 Sept 2011.

[128]  “Wearable and Implantable Wireless Brain-Machine Interfaces for Biosensing and Treatment of Neural Dysfunctions”, Invited Seminar, Yonsei Univ. Annual Workshop, Seoul, Korea, 3 Oct 2011.

[127]  “Brain-Machine Interfaces for Wireless Biosensing and Treatment of Neural Dysfunctions”, Keynotes, IEEE-ICOST, Montreal, June 2011.

[126]  “Brain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments”, Invited Seminar, BWRC, Berkeley, CA,USA, June 2011.

[125]  “Brain-Machine-Brain Wireless Interfaces for Intracortical Biosensing and Subsequent Treatments”, IEEE-Solid-State Circuits Society, National Semiconductor, Santa-Clara, CA, USA, June 2011.

[124]  “Harvesting Energy and Bidirectional Wireless Data Transmission for Implantable BMI Applications”, Invited talk, IEEE-IMS, RFIC WS, Baltimore, USA, June 2011.

[123]  “Implantable Brain-Machine Interfaces for Biosensing and Subsequent Treatment of Central Neural System Dysfunctions”, Invited talk, IEEE-FTFC, Marrakech, Morrocco, May 2011.

[122]  “Brain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions”, IEEE-SSCS DL, Porto Alegre, Brazil, May 2011.

[121]  “Microsystèmes dédiés à des interfaces cerveaux-machines”, Invited talk, ENSA, Tunis, Tunisia, May 2011.

[120]  “Microsystèmes dédiés à des interfaces cerveaux-machines”, Invited talk, ENISo, Sousse, Tunisia, May 2011.

[119]  “Brain-Machine Interfaces for Intracortical Biosensing and Treatment of Central Neural System Dysfunctions”, IEEE-SSCS DL, Columbia Univ., New York, USA, May 2011.

[118]  “Massively Parallel Brain-Computer Interfaces for Biosensing and Subsequent Treatment of Neural Dysfunctions”, Tutorial, IEEE-ISMICT, Lausanne, Switzerland, March 2011.

[117]  “Interface cerveau-machine pour la détection et traitement de foyers épileptiques”, Invited Talk, FETCH, Quebec, Canada, Jan. 2011.

[116] “Implantable Microsystems Intended for Onset Epileptic Seizure Detection and Treatment”, Keynotes, IEEE-CIBEC, Cairo, Egypt, Dec. 2010.

[115]  “Emerging Brain-Machine Interfaces for Diagnostic and Recovery of Neural Vital Functions”, Invited Talk, IEEE-ISNE, Taipei, Taiwan, Nov. 2010.

[114]  “Research Areas in IEEE-CAS Society Needed for, and Can be Applied to, BMIs”, Invited Talk at IEEE-SMC BMI Workshop, Istanbul, Turkey, Oct. 2010.

[113]  “Harvesting Energy and Wireless Data Transmission for Sensors and Actuators”, Invited Talk, Workshop NSFC-FQRNT, Green ICT: Sustainable Wireless Communications, Beijing, China, Sept. 2010.

[112]  “Brain-Machine Interfaces for Accurate Monitoring and Subsequent Treatment of Central Neural System Functions”, Keynotes at IEEE-EMBC Workshop, Waterloo, Ontario, Oct. 2010.

[111]  “Emerging Wireless Intracortical Massively Parallel Biosensing”, Tutorial, RaMSiS Summer School Next Generation Mobile Communications, Notre-Dame University, Beirut, Lebanon, July 2010.

[110]  “Wireless Brain‐Machine Interface for the Recovery of Neural Vital Functions”, Tutorial at the 6th RaMSiS Summer School Next Generation Mobile Communications: Chipset Design and Applications, Notre-Dame University, Beirut, Lebanon, July 2010.

[109]  “Low-power implantable devices for onset seizures detection and subsequent treatment”, Keynotes at the 16th IEEE Int’l Mixed-Signals, Sensors, and Systems Test Workshop (IMS3TW), Montpellier, France, June 2010.

[108]  “New sacral neurostimulation strategy for improving bladder voiding in paraplegic dogs”, Keynotes at the 4th annual meeting of the Canadian Neuromodulation Society (CNS), Quebec, Quebec, June 2010

[107]  “Intracortical Multichannel Recording for Efficient Prosthetic Implementation”, Invited talk at Joint IEEE CASS / SSCS/EDS Chapter, Ottawa, Canada, May 2010.

[106]  “Circuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission”, Keynotes at the 16th IEEE Int’l Symposium on Asynchronous Circuits and Systems (ASYNC), Grenoble, France, May 2010.

[105]  “Circuits and Microsystems for Intracortical Multichannel ENG Recording and Wireless Transmission”, Invited talk at Université de Montpellier II, Montpellier, France, March 2010.

[104]  “Microsystèmes pour redonner la vue aux aveugles : Conférences en classe”, Invited talk at Baie-Comeau College, Video-conference, March 2010.

[103]  “Les activités de recherche sur les microsystèmes au Québec : projets et infrastructures”, Invited talk at Université de Sherbrooke, Sherbrooke, Canada, February 2010.

[102]  “Efficient Wireless Power Recovery and Bidirectional Data Transmission in Smart Medical Devices”, Invited talk at CMC Microsystems Wearable Wireless Devices for Bio-Medical Applications Workshop, Montreal, February 2010.

[101]  “Multi-modes high performance digital pixel sensor for visual intracortical microstimulation”, Invited talk, CMC Microsystems Bioimaging for Bio-Sensing Applications Workshop, Montreal, November 2009.

[100]  “Biomedical Circuits and Microsystems for Wireless Intracortical Biosensing and Treatment”, Tutorial, Int’l Conf. on Electronics, Circuits and Systems (ICECS), Tunisia, Dec. 2009.

[99] “Microsystèmes embarqués dédiés à la récupération de fonctions neuromusculaires”, Invited talk, Ecole Marocaine des sciences de l’ingénieur, Casablanca, Morocco, Dec. 2009.

[98] “Microsystèmes pour redonner la vue aux aveugles : Conférences en classe”, Invited talk at Edouard-Montpetit College, Longueil, October 2009.

[97] “Intracortical Microsystems for Wireless Biosensing and Visual Microstimulation”, Invited talk, Computer Science & Eng. Colloquium, Washington University, St-Louis, USA, Sept. 2009.

[96] “Intracortical Microstimulation to Create Vision”, Invited talk at the IEEE-Custom Integrated Circuits Conference (CICC), San Jose, USA, Sept. 2009.

[95] “Emerging CMOS-Based biosensing technologies”, Tutorial, Symposium on Integrated Circuits and Systems Design (SBCCI), Brazil, Sept. 2009.

[94] “Capacitive Sensing Technique Dedicated for Biodiagnostic Microsystems”, Tutorial, 19th European Conference on Circuit Theory and Design (ECCTD), Turkey, Sept. 2009.

[93] “Brain-machine interface: 3D-IC for intracortical recording and wireless transmission”, Invited talk at the System Design for 3D Silicon Integration Workshop (D43D), Grenoble, June 2009.

[92] “Intracortical microstimulation for creating vision: a multidisciplinary approach”, Invited talk at the IEEE Mixed-Signals, Sensors and Systems Test Workshop (IMS3TW), Scottsdale, June 2009.

[91] “Microsystèmes médicaux implantables : défis de conception et d’intégration”, Invited Talk at ACFAS, Ottawa, May 2009.

[90] “Intracortical Wireless Microsystems for Biosensing and Neurostimulation”, Tutorial at the GLSVLSI, Boston, USA, May 2009.

[89] “Implantable Intracortical Microsystems for Wireless Biosensing and Treatment”, Invited talk at Michigan State University, Detroit, USA, April 2009.

[88] “Multichannel sensing for better primary visual cortex microstimulation”, Invited talk at ACM Siggraph, Montreal, Canada February 2009.

[87] “Multichannel sensing and stimulation in the cortex: Design and packaging challenges”, Invited talk at University of Cyprus, Cyprus, January 2009.

[86] “Learning from the primary visual cortex to recover vision for the blind by microstimulation”, Keynotes at IEEE-Norchip, Tullin, Estonia, November 2008.

[85] “Lab-on-Chip Based Sensors for bioparticles detection and characterisation”, Tutorial at IEEE-Norchip, Tullin, Estonia, November 2008.

[84] “Partenariats pour le développement et la commercialisation d’un implant urinaire”, Entretiens Jacques-Cartier, Montreal, Canada, October 2008.

[83] “Medical Microsystems for the Recovery of Vital Neural Functions”, Invited Talk, National Cheng Kung University, Tainan, September 2008.

[82] “Medical Microsystems for the Recovery of Vital Neural Functions”, Invited Talk, National Taiwan University, Taipei, September 2008.

[81] “Microsystems Based on Microelectronics Technologies: Overview and Successful Stories of ReSMiQ Research Centre”, Invited Talk, MEMS Emerging technology Forum, Hsinchu, September 2008.

[80] “Lab-on-Chip Based Diagnostic Tools: Microfluidic Structures on Top of CMOS Devices”, Tutorial at IEEE-ICECS, Malta, September 2008.

[79] “Wireless Intracortical Microsystems for Sensing and Subsequent Treatment”, Invited Talk at CMOS Emerging Technology, Whistler, Canada, August 2008.

[78] “Wireless Multi-channel Stimulation and sensing from the cortex: Design and test challenges”, Invited Talk at VERIMAG, Grenoble, France, July 2008.

[77] “Architectures, approches et infrastructures dédiées à la construction de microdispositifs hétérogènes embarqués”, Invited Talk at SSNE’08, Alger, May 2008.

[76] “Massively parallel wireless sensing from the cortex: Design and test challenges”, Invited Talk at IEEE-VTS, San Diego, May 2008.

[75] “Microsystems for advanced diagnostic and treatment tools”, Invited Talk at Shanghai Jiao Tong University, Shanghai, China, April 2008.

[74] “Circuits and systems for medical wearable devices”, Invited Talk at Shanghai Jiao Tong University, Shanghai, China, April 2008.

[73] “Biomedical Circuits and Systems Dedicated for Sensing and Neurostimulation”, Keynotes at ELECO, Bursa, Turkey, Dec. 2007.

[72] “Circuits and Systems Dedicated for biosensors and implantable stimulators”, Tutorial at University of Istanboul, Istanboul, Turkey, Dec. 2007.

[71] “A 0.18 μm CMOS Capacitive Detection Lab-on-Chip”, Invited Talk at IEEE-CICC, San Jose, September 2007.

[70] “Diagnostic tools based on mixed-technology microdevices”, Tutorial ECCDT2007, Sevilla, Spain, August 2007.

[69] “CMOS Based Laboratory-on-Chip: A Multidisciplinary Approach”, Invited Talk at CMOS Emerging Technology, Whistler, Canada, August 2007.

[68] “Neurostimulation and Neuromodulation to Enhance the Bladder Functions”, Invited Talk at IHMNC/CAN, Toronto, Canada, May 2007.

[67] “Implantable diagnostic tools based on mixed-technology microdevices”, Tutorial FTFC, Paris, France, May 2007.

[66] “Engineering Biosensing Microsystems for Advanced Diagnostic Tools”, Keynotes at ICBME, Tehran, Feb. 2007.

[65] “Microsytèmes dédiés aux applications médicales intracorticales: réalisation et expérimentation”, Invited Talk at Fetch, Lyon, France, Jan. 2007.

[64] “La recherche en ingénierie par l’exemple : Microélectronique dédiée aux microsystèmes implantables: défis et limites”, Invited Seminar at Journée Franco-Québecoise, Marseille, France, December 2006.

[63] “Implantable Smart Medical Microsystems: Limits and Challenges”, Keynotes at 13th IEEE ICECS, Nice, France, December 2006.

[62] “Engineering Biosensing Microsystems for Advanced Diagnostic Tools”, Invited Seminar at Shanghai JTU, Shanghai, China, October 2006.

[61] “Micro/Nano Opportunities in Implantable Medical Devices”, Keynotes at Micro-NanoUtah, Salt Lake City, USA, October 2006.

[60] “Signal Processing Based Implantable Microsystems for Intracortical Therapeutic Purposes”, Keynotes at IEEE SIPS, Calgary, October 2006.

[59] “Microsystèmes pour redonner la vue aux aveugles : Conférences en classe “, CEGEP du Vieux-Montreal, Montreal, Canada, September 2006.

[58] “Biomedical Circuits and Systems Dedicated to Remote Sensing and Neurostimulation”, DL North Jersey CAS Chapter, USA, May 2006.

[57] “Wireless Communication Circuits for Biomedical Devices”, SYTACom Workshop, ACFAS, Montreal, Canada, May 2006.

[56] “Mise en oeuvre de dispositifs de surveillance et stimulation intracorticales”, GRSTB Workshop, Montreal, Canada, May 2006.

[55] “The Pursuit of Sight Restoration for the Blind by Intracortical Microstimulation”, Keynotes Northeast Bioengineering Conference, Easton, PA, April 2006.

[54] “Microelectronics to build microsystems dedicated to several applications”, FQRNT Workshop, Montreal, Canada, January 2006.

[53] “De la puce à l’oreille jusqu’à l’oeil électronique “, Profil deVinci, Polytechnique, Montreal, Canada, January 2006.

[52] “Biomedical Circuits and Systems for Implantable Devices”, Lebanese American University, Beirut, Lebanon, Dec. 2005.

[51] “Wireless Biomedical Circuits and Systems Techniques dedicated to Sensoring and Neurostimulation”, LIRMM Centre, Montpellier, France, Nov. 2005.

[50] “BioCAS to Build Wirelessly Powered and Controlled Medical Devices”, Tutorial, ECCTD, Ireland, September 2005.

[49] HU, Y., COULOMBE, J., “Wireless Powered and Bidirectional Data Exchanged in Smart Medical Microsystems”, invited paper in IEEE-CICC, San Jose, September 2005.

[48] “BioCAS to Build Wirelessly Powered and Controlled Medical Devices”, Tutorial at IEEE-ECCTD, Ireland, September 2005.

[47] “Les implants microélectroniques : capteurs et microstimulateurs”, PRECARN IS Conference, Quebec, 2005.

[46] “Advanced Circuit Techniques to Implement Biomedical Implantable Microsystems”, Tutorial at IEEE-ISCAS, Kobe, Japan, May 2005.

[45] “Advanced Techniques to Build Smart Implantable Medical Devices”, DL Vancouver IEEE-CAS Chapter, Vancouver, Canada, May 2005.

[44] “Advanced Techniques to Build Smart Implantable Medical Devices”, DL Calgary IEEE-CAS Chapter, Calgary, Canada, May 2005.

[43] “Implantable Medical Devices to Recuperate Vital Neural Functions”, Lebanese International University, Lebanon, April 2005.

[42] “Microsystems dedicated to build Smart Medical Devices: Present and future directions”, IEEE Polytechnique Student Chapter, Montreal, Canada, April 2005.

[41] “Wirelessly Powered and Fully Controlled Smart Medical Microsystems”, DL Halifax IEEE-CAS Chapter, Halifax, Canada, March 2005.

[40] “Advanced Techniques to Build Smart Implantable Medical Devices”, DL Caribean IEEE-CAS Chapter, Puerto-Rico, March 2005.

[39] “Advanced Techniques to Build Smart Implantable Medical Devices”, DL San Juan IEEE-CAS Chapter, Puerto-Rico, March 2005.

[38] “Implantable Microdevices for Multichannel Monitoring and Electrical Stimulation”, DL Singapore IEEE-CAS Chapter, Singapore, December 2004.

[37] “Implantable Microdevices for Multichannel Monitoring and Electrical Stimulation”, DL France IEEE-CAS Chapter, Paris, France, November 2004.

[36] “Microsystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging”, IEEE-ICSICT, Beijing, China, 2004.

[35] “Wirelessly controlled implantable devices for multichannel monitoring and stimulation”, IEEE-ICCSC, Moscow, July 2004.

[34] “Wireless smart implants dedicated to multichannel monitoring and microstimulation”, IEEE-ICPS, Beirut, Lebanon, June 2004.

[33] “Building Biomedical Microsystems: Design and Experimental Validation”, Dept of ECE, McMaster Univ., 2004.

[32] “Microsystems dedicated to wireless multichannel monitoring and microstimulation: design, test and packaging”, IEEE-ICSICT, Beijing, China, October 2004, vol. 2, pp. 1408-1411.

[31] “Wireless smart implants dedicated to multichannel monitoring and microstimulation”, The IEEE/ACS International conference on Pervasive Services, Beirut, Lebanon, July 2004, pp. 21-26.

[30] “Dual Neurostimulation to Recuperate the Urinary Bladder Functions”, The Institute of Neuro-sciences Mental Health and Addiction annual meeting, Toronto, Canada, November 2003.

[29] “Biomedical circuits and systems to recuperate neuromuscular functions” IEEE-CAS Chapter, Waterloo, Canada, September 2003.

[28] “Analog-to-Digital Converters Dedicated to Wide-Bandwidth Wireless Transceivers”, Wireless Industry Congress, Ottawa, Canada, September 2003.

[27] “Implantable Smart Medical Devices to Recuperate Neuromuscular Functions”, McGill University, April 2003.

[26] “Visual Electronic Implants: Principal & Alternative”, Université de Montréal, March 2003.

[25] “Neurostimulation to reduce the Hyperreflexia of the Detrusor and Avoid its Dyssynergia with the Sphincter”, Int. Society for Pelvic Neuromodulation, Phoenix, January 2003.

[24] “Techniques et instrumentation de la neurostimulation”, Congrès de biologie médicale, Trois-Rivières, 2002.

[23] “La neurotechnologie pour récupérer des fonctions humaines”, OIQ Lanaudière, Feb. 2002.

[22] “The present and future of the artificial eye”, SIGGRAPH, ACM, Montreal, October 2001.

[21] “Microelectronics to Build Smart Medical Devices”, 13th IEEE-ICM, Maroc, 2001.

[20] “Biomedical Microelectronics to build smart medical devices”, Concordia University, 2001.

[19] “Testability of electronic circuits dedicated to implants”, Panel, VTS, Montreal,  Canada, 2000.

[18] “Analog circuit tecniques for RF applications ”, Mitel, Kanata, October 1999.

[17] “Systèmes dédiés à la récupération de fonctions neuromusculaires ”, IEEE St-Maurice, 1999.

[16] “Microelectronics in biomedical implantable devices”, Lebanese American University, 1997.

[15] “Récupération de fonctions sensorielles par des stimulateurs sensoriels”, GRPR, 26 May 1995.

[14] “Architectures et méthodes de conception de PLD”, Colloque Microélectron., Montreal, Canada, 1994.

[13] “Les circuits logiques programmables et leurs outils de développement”, IEEE-Poly, 1993.

[12] “Implants sensoriels dédiés au contrôle de dysfonctions urinaires”, GRBB, Montreal, Canada, 1993.

[11] “Microelectronics and Biomedical Instrumentation”, IEEE-Int. Conference on Microelectronics, 1993, p. 325-328.

[10] “Mixed Digital/Analog ASIC for Neural Stimulation Applications”, GRIAO, Montreal, Canada, 1992.

[9] “Applications de la microélectronique aux implants sensoriels”, Poly-Grames, December 1992.

[8] “A Multichannel Implantation Bladder Controller”, PFIZER, École Polytechnique, June 1992.

[7] “Stimulateurs neuromusculaires implantables : couplage inductif et sources de courant”, École Polytechnique de Montréal, Montreal, Canada, June 1991.

[6] “Conception, Réalisation et tests in vivo des stimulateurs neuromusculaires implantables”, École de Technologie Supérieure, Montreal, Canada, June 1991.

[5] ”Nouvelle génération des stimulateurs neuromusculaires implantables”, Congrès de l’ACFAS, Colloque, Sherbrooke, Canada, May 1991.

[4] “Design, Realization and In vivo Tests of a Computerized Implantable 8Channel Bladder Stimulator”, Biomedical Engineering, Université McGill, Montreal, Canada, April 1991.

[3] “Réalisation et tests in vivo des stimulateurs neuro-musculaires implantables”, École Polytechnique, Montreal, Canada, March 1991.

[2] “Tests in vivo de la prothèse urinaire du GRAMS”, Génie électrique, Université de Sherbrooke, October 1990.

[1] “Un aperçu sur le stimulateur cochléaire: point de vue expérimental”, COSEM Neurostim Ltée, Montreal, Canada, January 1989.

E. Articles dans des comptes rendus de conférences avec comité de lecture

[547] GAGLIANO L., BOU ASSI E., TOFFA D.H., NGUYEN D.K., SAWAN M., “Unsupervised Clustering of HRV Features Reveals Preictal Changes in Human Epilepsy”, IEEE-EMBC, Virtual, Montreal, 2020.

[546] KARIMI M., JOUAICHA H., LELLOUCHE F., BOUCHARD P.-A., SAWAN M., GOSSELIN B., “A 6.78-MHz Robust WPT System with Inductive Link Bandwidth Extended for Cm-Sized Implantable Medical devices”, IEEE-EMBC, Virtual, Montreal, 2020.

[545] GHARIB I., SAWAN M., “Microfluidic Valve Arrays for Drug Delivery in Organ-On-Chips”, IEEE-EMBC, Virtual, Montreal, 2020.

[544] ELSAYEGH B., DUMOULIN C., ALI M., ASSAF H., SAWAN M., “A Dynamometer-Based Wireless Pelvic Floor Muscle Force Monitoring”, IEEE-EMBC, Virtual, Montreal, 2020.

[543] ESMAEILZADEH M, ALI M., HASSAN A., AUDET Y., SAWAN M., “Low-Power High-Accuracy VCO-Based Comparator for Sensor Interface Applications”, IEEE- NEWCAS, Montreal, 2020.

[542] KARIMI M., ALI M., HASSAN A., WEBER-BOISVERT G., ABUELNASR A., SAWAN M., GOSSELIN B., “A 1.99-ns 0.5-pJ Wide Frequency Range Level Shifter with Closed-Loop Negative Feedback”, IEEE- NEWCAS, Montreal, 2020.

[541] HASSAN A., AMER M., SAVARIA Y., SAWAN M., “Towards GaN500-Based High Temperature ICs: Characterization and Modeling Up to 600°C”, IEEE- NEWCAS, Montreal, 2020.

[540] AMER M., ALI M., ABUELNASR A., HASSAN A., NABAVI M., SAVARIA Y., SAWAN M., …, “_Fully Integrated Dual-Channel Gate Driver and Area Efficient PID Compensator for Surge Tolerant Power Sensor Interface”, IEEE- NEWCAS, Montreal, 2020.

[539] GAGLIANO L., LESAGE F., BOU ASSI E., NGUYEN D.K., SAWAN M., “Neural Networks for Epileptic Seizure Prediction: Algorithms and Hardware Implementation”, IEEE- NEWCAS, Montreal, 2020.

[538] AKBARI M., HONARPARVAR M., SAVARIA Y., SAWAN M., “OTA-Free MASH Two-Step Incremental ADC Based on Noise Shaping SAR ADCs”, IEEE- NEWCAS, Montreal, 2020.

[537] MIRFAKHRAEI S., AUDET Y., HASSAN A., ALI M., NABAVI M., SAWAN M., “A CMOS MAGFET-Based Programmable Isolation Amplifier”, IEEE- NEWCAS, Montreal, 2020.

[536] ZHAO S., YANG J., XU Y., SAWAN M., “Binary Single-Dimensional Convolutional Neural Network for Seizure Prediction”, Accepted in IEEE-ISCAS, October 2020.

[535] NAJARPOUR-FOROUSHANI A., ASSAF H., HASHEMI-NOSHAHR F., SAVARIA Y., SAWAN M., “Analog Circuits to Accelerate the Relaxation Process in the Equilibrium Propagation Algorithm”, Accepted in IEEE-ISCAS, October 2020.

[534] MIRFAKHRAEI S., NABAVI M., YOUNESS B., SAWAN M., AUDET Y., “Wide Dynamic Range Front-End Programmable Isolation Amplifier Using Integrated CMOS Hall Effect Sensor”, Accepted in IEEE-ISCAS, October 2020.

[533] ESMAEILZADEH M., ALI M., HASSAN A., NABAVI M., GOSSELIN, B., SAWAN M., “A Tunable CMOS Thyristor-Based Pulse Generator for Integrated Sensor Interface Applications”, Accepted in IEEE-ISCAS, October 2020.

[532] KARIMI M., NABAVI M., ALI M., HASSAN A., AMER M., SAWAN M., GOSSELIN B., “A Versatile Non-Overlapping Signal Generator for Efficient Power-Converters Operation”, Accepted in IEEE-ISCAS, October 2020.

[531] AKBARI M., HONARPARVAR M., SAVARIA Y, SAWAN M., “OTA-Free Mash 2-2 Noise Shaping SAR ADC: System and Design Considerations”, Accepted in IEEE-ISCAS, October 2020.

[530] XU Y., YANG J., ZHAO S., SAWAN M., “End-to-End deeplearningapproach for EpilepticSeizurePredictionusingIntracranial and Scalp Electroencephalogram”, IEEE-AICAS, Genova, Italy, Mar. 2019.

[529] ALI M., NABAVI M., HASSAN A., HONARVARVAR M., SAVARIA Y. SAWAN M., “A Versatile SoC/SiPSensor Interface for Industrial Applications: Design Considerations”, IEEE-ICM, Cairo, Egypt, Dec. 2019.

[528] HASHEMI F., NABAVI M., SAWAN M., “A 2.77mW, 80 ppm/ºC Temperature Coefficient Voltage Reference for Biomedical Implants”,IEEE-ICECS, Genova, Italy, Nov. 2019.

[527] LI N., SAWAN M., “An Efficient Real-Time Neural Spike Detection Engine withAutomaticTemplatesGeneration”, IEEE-ICSAI, Shanghai, Oct. 2019.

[526] SAHA S., LESAGE F., SAWAN M., “Smart Integrated-in-package Optode for SeizureLocalization and SubsequentDetection”,IEEE-EMBC, Berlin, Gemany, Jul. 2019.

[525] GHARIB I., SAWAN M., “High-efficiency LED Driver for Short FluorophoresLifetimeBiosensing Applications”,IEEE-NEWCAS, Munich, Germany, June 2019.

[524] SAHA S., BURRI S., BRUSCHINI C., CHARBON E., LESAGE F., SAWAN M., “Time Domain NIRS Optodebased on Null/Small Source-Detector Distance for Wearable Applications”, IEEE-CICC, Austin, Texas, USA, Apr. 2019.

[523] ASSAF H., SAVARIA Y., SAWAN M., “MemristorEmulators for an Adaptive DPE Algorithm: Comparative Study”,IEEE-AICAS, Hsinchu, Taiwan, Mar 2019

[522] Assaf, H., Savaria Y., Sawan M., “Vector Matrix Multiplication usingCrossbarArrays: A Comparative Analysis”,IEEE-ICECS, Bordeaux, France, Dec 2018

[521] Salami M., Abadi MHS., Abadi KHS., Sawan M., “Aptamers-Based Gold-Micro-Array for High-SelectiveDetection of BacteriaUsing Fluorescence Microscopy”,IEEE-LSC, Montreal, Oct 2018

[520] Gagliano L., Bou Assi E., Sawan M., Nguyen D.K.,“Bicoherence of Intracranial EEG: A NovelPrecursor of Seizure Activity in Canine Epilepsy”,IEEE-LSC, Montreal, Oct 2018

[519] Chamseddine A., Sawan M.,“Deep Learning Based Method for Output Regularization of the SeizurePrediction Classifier”,IEEE-LSC, Montreal, Oct 2018

[518] Tokuda T., Pakpuwadon T., Wuthibenjaphonchai N., Haruta M., Noda T., Sasagawa K., Ju..., “CMOS-Based, Optically-Powered Implantable OptogeneticStimulator”,

[517] ELZARIF, N., MONTAZERI, L., SAWAN, M., “Real-Time RetinalProcessing for High-ResolutionOptogenetic Stimulation Device”, IEEE-EMBS, Haiwai, July 2018.

[516] Hasanuzzaman, M., Wang, G., Raut, R., Sawan, M., “Energy-Efficient MultichannelIntracortical Visual Stimulation”, IEEE-EMBS, Haiwai, July 2018.

[515] Tremblay, J., Martinez-Montes, E., Vannasing, P., Nguyen, D., Sawan, M., Lepore, F., Lassonde, M. Gallagher, A.,“Comparison of source localization techniques in Diffuse Optical Tomography for fNIRS application using a realistichead model”, fNIRS 2018.

[514] MONTAZERI, L., ELZARIF, N., SAWAN, M., “Optical Control of Neural Dynamics Using LED Array”, IEEE-NEWCAS, Montreal, Canada, June 2018.

[513] EGILA, M., BOU ASSI, E., SAWAN, M., “Non-LinearSequential SVM Classifier of EpilepticSeizures”, IEEE-NEWCAS, Montreal, Canada, June 2018.

[512] Abubakr, A., Hassan, A., Ragab, A., Yacout, S., Savaria, Y., Sawan, M., “High-TemperatureModeling of the I-V Characteristics of GaN150 HEMT Using Machine Learning Techniques”, IEEE-ISCAS, Florence, Italy, May 2018.

[511] Amer, M., Hassan, A., Ragab, A., Yacout, S., Savaria, Y., Sawan, M., “High-TemperatureEmpiricalModeling for the I-V Characteristics of GaN150-Based HEMT”, IEEE-ISCAS, Florence, Italy, May 2018.

[510] Noghabaei, M., Radin, R., Savaria, Y., Sawan, M., “A High-Efficiency Ultra-Low-Power CMOS Rectifier for RF EnergyHarvesting Applications”, IEEE-ISCAS, Florence, Italy, May 2018.

[509] Tokuda, T., Nattakarn, W., Ishizu, T., Haruta, M., Noda T., Sasagawa, K., OHTA, J., “Live Demonstration: IoTMicronodewith Optical ID Transmission CapabilityOperated by Optical EnergyHarvesting”, Poster, IEEE-ISCAS, Florence, Italy, May 2018.

[508] MONTAZERI, L., ELZARIF, N., TOKUDA, T., OHTA, J., SAWAN, M., “Active Control of µLED Arrays for Optogenetic Stimulation”, IEEE-ISCAS, Florence, Italy, May 2018.

[507] HONARPARVAR, M., DE LA ROSA, J., M., NABKI, F., SAWAN, M., “Design Considerations of MASH ∆Σ Modulatorswith GRO-BasedQuantization”, IEEE-ISCAS, Florence, Italy, May 2018.

[506] BOU ASSI, E., NGUYEN, D., RIHANA, S., SAWAN, M., “RefractoryEpilepsy: Detection, Prediction, and Localization”, Invited, IEEE-ASICON, Guiyang, China, November 2017.

[505] TANTIN, A., LETOURNEAU, A., ZGAREN, M., HACHED, S., CLAUSEN, I., SAWAN, M., “Implantable MICS-based Wireless Solution for Bladder Pressure Monitoring”, IEEE-BIOCAS, Torino, Italy, October 2017.

[504] SAURIOL, PA., HASSOUNA, M., SAWAN, M., “An OptimizedElectrotherapyDevice for OveractiveBladderTreatment”, IEEE-BIOCAS, Torino, Italy, October 2017.

[503] Honarparvar M., de la Rosa J., Nabki F., Sawan M.,“Novel Band-Pass Delta-Sigma ModulatorsBased on a ModifiedAdder-LessFeed-Forward Structure”, IEEE MWSCAS, Boston, USA, Aug. 2017.

[502] TRIGUI A., ALI M., AMMARI A.C., SAVARIA Y., SAWAN M., “A 14.5 µW Generic Carrier WidthDemodulator for Telemetry-BasedMedicalDevices”, IEEE-NEWCAS, Strasbourg, France, June 2017.

[501] Hashemi-Noshahr F., SAWAN M, “A Compact and Low Power Bandpass Amplifier for LowBandwidth Signal Applications in 65-nm CMOS”, IEEE ISCAS, Baltimore, USA, May 2017.

[500] NOGHABAEI M., SAWAN M, “A Fully Integrated High-efficiencyStep-up DC-DC Converter for EnergyHarvesting Applications”, IEEE ISOCC, Jeju, Korea, Oct 2016.

[499] BOU ASSI, E., NGUYEN DK., RIHANA S., SAWAN M., “A 2D ClusteringApproachInvestigating Inter-HemisphericSeizure Flow by Means of a Directed Transfer Function”, IEEE-MECBME,Beirut, Lebanon, Sept 2016.

[498] RESAEI, M., MAGHSOUDLOO E., SAWAN M., GOSSELIN B., “A 110-nw In-Channel Sigma-Delta Converter for Large-Scale Neural Recording Implants”, IEEE-EMBC, Orlando, USA, August 2016

[497] CHAMPAGNE PO., NGUYEN DK., CARMANT L., BOUTHILLIER A., SANON NT., SAWAN M., “Behavior of SuperparamagneticNanoparticles in Regard of Brain Activity – a Proof of Concept”, IEEE-EMBC, Orlando, USA, August 2016.

[496] HAMMOUD A., CHAMSEDDINE A., NGUYEN DK., SAWAN M., “Towards an Implantable Bio-Sensor Platform for Continuous Real-Time Monitoring of Anti-EpilepticDrugs”, IEEE-EMBC, Orlando, USA, August 2016

[495] MENDEZ A., SAWAN, M., “Real-time monitoring of the bladder volume to improveeffectiveness of implantable neuroprosthesis”, IEEE-EMBC, Orlando, USA, August 2016

[494] SAWAN, M., “ConnectingWearable and Implantable MedicalDevices to Internet for RemoteSensing and Treatment”, Invitedpaper, IEEE-EMBC, Orlando, USA, August 2016

[493] FARTOUMI, S., EMERIAUD G., SAVY N., BERNARD F., JOUVET P., SAWAN M., “Real-time Diagnosis of CerebralStatusFollowingTraumatic Brain InjuryUsingFuzzy Min-Max Neural Networks”,IEEE-EMBC, Orlando, USA, August 2016.

[492] ZGAREN, M., MOHAMAD, S., AMIRA, A., SAWAN, M., “EPC Gen-2 UHF RFID Tags withLow-Power CMOS TemperatureSensorSuitable for Gas Applications”, IEEE-NEWCAS, Vancouver, Canada, June 2016.

[491] TRIGUI, A., ALI, M., SAVARIA, Y., AMMARI, A., SAWAN, M., “Quad-Level Carrier Width Modulation Demodulator for Micro-Implants”, Poster, IEEE-NEWCAS, Vancouver, Canada, June 2016.

[490] ALI, M., SAWAN, M., SHAWKEY, H., ZEKRY, A., “PLL Based BFSK SubcarrierGenerator for FM-UWB Transmitter”, Poster, IEEE-NEWCAS, Vancouver, Canada, June 2016.

[489] NABOVATI, G., GHAFAR-ZADEH, E., SAWAN, M., “A NovelMultifunctional Integrated BiosensorArray for Simultaneous Monitoring of CellGrowth and Acidification Rate”, IEEE- Circuits and Systems Forum on Emerging and Selected Topics (CASFEST), Montreal, Canada, May 2016.

[488] NABOVATI, G., GHAFAR-ZADEH, E., LETOURNEAU, A., SAWAN, M., “Live Demonstration: CMOS Capacitive SensorArray for Real-Time Analyses of Living Cells”, IEEE-ISCAS, Montreal, Canada, May 2016.

[487] ALI, M., SAWAN, M., SHAWKEY, H., ZEKRY, A., “FM-UWB Transmitter for Wireless Body Area Networks: Implementation and Simulation”, Poster, IEEE-ISCAS, Montreal, Canada, May 2016.

[486] HONARPARVAR, M., SAFI-HARB, M., SAWAN, M., “An Amplifier-SharedInverter-BasedMash Structure ΔΣ Modulator for Smart Sensor Interfaces”, IEEE-ISCAS, Montreal, Canada, May 2016.

[485] SAHA S., LESAGE, F., SAWAN, M., “Time-ResolvedReflectanceUsing Short Source-Detector Separation”, IEEE-ISCAS, Montreal, Canada, May 2016.

[484] MAGHSOUDLOO E., REZAEI, M., SAWAN, M., GOSSELIN, B., “A New Charge BalancingScheme for ElectricalMicrostimulatorsBased on ModulatedAnodic Stimulation Pulse Width”, Poster,IEEE-ISCAS, Montreal, Canada, May 2016.

[483] NABOVATI, G., GHAFARZADEH, E., LETOURNEAU, A., SAWAN, M., “CMOS Capacitive SensorArray for Real-Time Analyses of Living Cells”, Invited,IEEE-ISCAS, Montreal, Canada, May 2016.

[482] HASSAN, A., TRIGUI, A., SHAFIQUE, U., SAVARIA, Y., SAWAN, M., “Wireless Power Transfer ThroughMetallicBarriersEnclosing a HarshEnvironment, Feasibility and PreliminaryResults”, Poster, IEEE-ISCAS, Montreal, Canada, May 2016.

[481] LI, N., OSBORN, M., FANG, L., SAWAN, M., “Using Template Matching and Compressed Sensing Techniques to Enhance Performance of Neural Spike Detection and Data Compression Systems”, IEEE-ISCAS, Montreal, Canada, May 2016.

[480] YU, X., ESAUN, M., MACKAY, S., CHEN, J., SAWAN, M., WISHARD, D., HIEBERT W., “An ImpedanceDetection Circuit for Applications in a Portable Biosensor System”, Poster, IEEE-ISCAS, Montreal, Canada, May 2016.

[479] HAFLIGER, P., NABOVATI, G., WAGNER, N., GRECO, J., SAWAN, M., BIRGE, R., “Combined Optical and Chemical AsynchronousEvent Pixel Array”, IEEE-ISCAS, Montreal, Canada, May 2016.

[478] GHAFAR-ZADEH, E.,Ayala-Charca G., Matynia, M., Magierowski, S., Gholamzadeh, B., SAWAN, M., “Towards Free-BreathingSpirometery-on-Chip: Design, Implementation and PreliminaryExperimentalResults”, IEEE-ISCAS, Montreal, Canada, May 2016.

[477] SAHA, S., LESAGE, F., SAWAN, M., “High-Voltage Pulse Generatorwith Variable Delay for UltrafastGating of Single Photon Detector”, IEEE – Latin American Symposium on Circuits and Systems (LASCAS), Florianopolis, Brazil, February 2016.

[476] HASSAN, A., TRIGUI, A., SAWAN, M., “Wireless Monitoring of Collagen Progression around Implantable Prostheses”, IEEE – Latin American Symposium on Circuits and Systems (LASCAS), Florianopolis, Brazil, February 2016.

[475] HASSAN, A., GOSSELIN, B., SAWAN, M., “Ultra-Low Power CMOS Voltage Reference for High Temperature Applications Up to 300oC”, IEEE-ICECS, Cairo, December 2015.

[474] ZGAREN, M., SAWAN, M., “A High-SensitivityBattery-Less Wake-Up Receiver for 915 MHz ISM Band Applications”, IEEE-ICECS, Cairo, December 2015.

[473] MOHAJERTEHRANI, M., SHAFIQUE, U., SAVARIA, Y., SAWAN, M., “HarvestingEnergyfrom Data Lines For Avionics Applications: Power Conversion Chain Architecture”, IEEE-ICM, Casablanca, Morocco, December 2015.

[472] BOU ASSI, E., NGUYEN, D., RIHANA, S., SAWAN, M., “A HybridmRMR-GeneticBasedSelection Method for The Prediction Of EpilepticSeizures”, IEEE-BIOCAS, Atlanta, USA, November 2015.

[471] HASSAN, A., SAWMA C., HASANUZZAMAN, M., GOSSELIN, B., SAWAN, M., “Spatial Carrier Position Modulation BasedMultichannel Capacitive Link for Bioelectronic Implants”, IEEE-BIOCAS, Atlanta, USA, November 2015.

[470] SAWMA, C., KASSEM, A., SAWAN, M., “Capacitive Data Links Intended for Implantable MedicalDevices: A Survey”, IEEE-ICABME, Beirut, September 2015.

[469] ZGAREN, M., SAWAN, M., “Ultra Low-power TransceiverwithNovel FSK Modulation Technique and Efficient FSK-to ASK Demodulation”, The 37thIEEE-EMBC, Milan, Italy, September 2015.

[468] GHANE-MOTLAGH, B., CHOUEIB, M., JAVANBAKHT T., SHOGHI, F., WILKINSON K.J., MARTEL, R., SAWAN, M., “High-Density 3D MicroelectrodeArrays for Brain-Machine Interfaces”, The 37thIEEE-EMBC, Milan, Italy, September 2015.

[467] WATSON, M., DANCAUSE N., SAWAN, M., “Efficient Microstimulation of the Brain: A ParametricApproach”, The 37thIEEE-EMBC, Milan, Italy, September 2015.

[466] GAGNON-TURCOTTE, G., SAWAN, M., GOSSELIN, B., “Low-Power Adaptive Spike Detector Based on a Sigma-Delta Control Loop”, The 37thIEEE-EMBC, Milan, Italy, September 2015.

[465] AKBAR, M.A., AIT SI ALI, A., AMIRA, A., BENSAALI, F., BENAMMAR, M., ZGAREN, M., SAWAN, M., BERMAK, A., “Receiver Design of Passive UHF RFID Sensor Platform for Gas Identification”, The6th International Conference on SensorDevice technologiesand Applications, Venice, Italy, August 2015.

[464] MAGHSOUDLOO, E., REZAEI, M., SAWAN, M., GOSSELIN, B., “A Power-Efficient Wide-Range Signal Level-Shifter”, IEEE-NEWCAS, Grenoble, France, June 2015.

[463] REZAEI, M, MAGHSOUDLOO, E., SAWAN, M., GOSSELIN, B., “A NovelMultichannelAnalog-to-Time ConverterBased on a Multiplexed Sigma Delta Converter”, IEEE-NEWCAS, Grenoble, France, June 2015.

[462] SAFFARI, P., TAHERZADEH-SANI, M., BASALIGHEH, A., NABKI, F., SAWAN, M., “Design of a 0.13 µm CMOS Common-Drain Power Amplifier for Low-Power Short-Range Applications”, IEEE-NEWCAS, Grenoble, France, June 2015.

[461] NABOVATI, G., GHAFAR-ZADEH, E., SAWAN, M., “A 64-pixel ISFET-basedbiosensor for extracellular pH gradient monitoring”, IEEE-ISCAS, Lisbon, Portugal, May 2015.

[460] ZABIHIAN, A., SODAGAR, A., SAWAN, M., “DistributedIntracortical Neural Interfacing: Network Protocol Design”, IEEE-Neural Engineering (NER) Conference, Montpellier, France, April 2015.

[459] LI, N., SAWAN, M., “High Compression Rate and Efficient SpikesDetection System Using Compressed Sensing Technique for Neural Signal Processing”, IEEE-Neural Engineering (NER) Conference, Montpellier, France, April 2015.

[458] WANG, Y., SAWAN, M., “High-Efficiency CMOS Rectifier Dedicated for Multi-Band Ambient RF EnergyHarvesting”, IEEE-ICECS, Marseille, France, Dec 2014.

[457] MIRBOZORGI, A., BAHRAMI, R., SAWAN, M., GOSSELIN, B., “Resonance-basedMulticoilArray Structure for EnablingMulti-Receiver Long-term In-Vivo Monitoring with Natural Power LocalizationFeature”, Invited, IEEE-BioCASConference, Lausanne, Switzerland, Nov. 2014.

[456] MIRBOZORGI, A., AMELI, R., SAWAN, M., GOSSELIN, B., “Towards a Wireless Optical Stimulation System for Long Term In-Vivo Experiments”, Invited, IEEE-EMBC, Chicago, USA, Sept 2014.

[455] BENDER-MACHADO, M., SAWAN, M., CHEREM-SCHNEIDER, M., GALUP-MONTORO, C., “10 mV–1V Step-up Converter for EnergyHarvesting Applications”, Best paperaward, IEEE-SBCCI, Aracaju, Brazil, Sept. 2014.

[454] AHMADI-TAMEH, T., SAWAN, M., KASHYAP, R., “Self-Referencing Ratio-Metric Optical Rotation Sensor for Avionic Application”, OSA- Optical and PhotonicsCongress, Barcelona, Spain, July 2014.

[453] HACHED, S., GARON, A., LOUTOCHIN, O., CORCOS J., SAWAN, M.,“Sphincter urinaire artificial intelligent: preserverorgans et qualité de vie du patient”, Handicap, France, June 2014.

[452] BENDER-MACHADO, CHEREM-SCHNEIDER, M., SAWAN, M., GALUP-MONTORO, C., “Fully-Integrated 86 mV – 1V Step-up Converter for EnergyHarvesting Applications”, IEEE-NEWCAS, Trois-Rivières, Canada, June 2014.

[451] ZGAREN, M., SAWAN, M., “Frequency-to-Amplitude Converterbased FSK Receiver for Ultra-Low Power Transceivers”, IEEE-NEWCAS, Trois-Rivières, Canada, June 2014.

[450] NABOVATI, G., GHAFAR-ZADEH, E., SAWAN, M., “Novel DC-input ΣΔ Capacitance-to-Digital Convertor for Biosensor Applications”, IEEE-NEWCAS, Trois-Rivières, Canada, June 2014.

[449] ZHENG, Y., SAWAN, M., “A Microsystem for MagneticImmunoassayTowardsProteinToxinsDetection”, Invited, IEEE-ISCAS, Melbourne, Australia, June 2014.

[448] NABOVATI, G., GHAFAR-ZADEH, E., MIRZAEI, M., AYALA, G., AWWAD, F., SAWAN, M., “Fully Integrated CMOS Capacitive Sensor for Lab-on-Chip Applications”, Invited, IEEE-ISCAS, Melbourne, Australia, June 2014.

[447] MILED, A., SAWAN, M., “Reconfigurable Lab-on-Chip Platform for AlgaeCell Manipulation”, Invited, IEEE-ISCAS, Melbourne, Australia, June 2014.

[446] MAGHAMI, MH., SODAGAR, A., SAWAN, M., “Biphasic, Energy-Efficient, Current-Controlled Stimulation Back-End for Retinal Visual Prosthesis”, IEEE-ISCAS, Melbourne, Australia, June 2014.

[445] MENDEZ, A., SAWAN, M., “A custom signal processor basedneuroprosthesisintended to recoverurinarybladderfunctions”, IEEE-ISCAS, Melbourne, Australia, June 2014.

[444] FACCHIN, S., SAWAN, M., MILED, A., “In-Channel Droplet-Based Micro-Sampling Technique for Lab-On-Chip”, IEEE CEFC’14, France, May 2014.

[443] HACHED, S., SAWAN, M., “A Bluetooth-basedLow-energy Qi-compliantBattery Charger for Implantable MedicalDevices”, IEEE-ISBB, Taoyuan, Taiwan, April 2014.

[442] BOUALI, M., AUCLAIR, B., MILED, A., SAWAN, M., “An On-Chip Programmable Multichannel Power Supply for a Lab-on-Chip Platform”, IEEE-ISBB, Taoyuan, Taiwan, April 2014.

[441] CHEBLI, R., SAWAN, M., “ChoppedLogarithmic Programmable Gain Amplifier Intended to EEG Acquisition Interface”, IEEE Int’lConf. onMicroelectronics(ICM), Beirut, Lebanon, December 2013.

[440] ZHANG, J., HASHEMI, S., KARIMIAN, M., KOUBAA, Z., SAWAN, M., “A Novel Power HarvestingScheme for Sensor Networks in Advanced Avionic Applications”, IEEE-ICECS, Abu Dhabi, UAE, December 2013.

[439] LI, N., SEMMAOUI, H., SAWAN, M., “Modified Maximum and Minimum Spread Estimation Method for Detection of Neural Spikes”, IEEE-ICECS, Abu Dhabi, UAE, December 2013.

[438] XING, P., MILED, M., SAWAN, M., “Glutamate, GABA And Dopamine Hydrochloride Concentration Effects on The Conductivity and Impedance of CerebrospinalFluid”, 6th International IEEE EMBS Conference on Neural Engineering, San Diego, CA, 6th-8thNovember 2013.

[437] HASANUZZAMAN, M., RAUT, R., and SAWAN, M. “Energy-Efficient High-Voltage CompliantMicrostimulator And Recording Interface for Implantable Brain-Machine Interface”, IEEE-Int’lBiomedical Circuits and SystemsConference, Rotterdam, Netherlands, November 2013.

[436] MASSICOTTE, G.,SAWAN, M., CARRARA, S., DE MICHELI, G., “Multi-ElectrodesAmperometricBiosensor for NeurotransmittersDetection”, IEEE-Int’lBiomedical Circuits and SystemsConference, Rotterdam, Netherlands, November 2013.

[435] GHANE-MOTLAGH, B., SAWAN, M., “A Review of MicroelectrodeArray Technologies: Design and Implementation Challenges”, IEEE-ICABME, Tripoli, Lebanon, September 2013.

[434] CHEBLI, R., SAWAN, M., “Low Noise and High CMRR Front-End Amplifier Dedicated to Portable EEG Acquisition System”, IEEE-Engineering Medicine and BiologyConference (EMBC), Osaka, Japan, July 2013.

[433] MIRBOZORGI, S.A., GOSSELIN, B., SAWAN, M., “MulticoilResonance-BasedParallelArray for Smart Wireless Power Delivery”, IEEE-Engineering Medicine and BiologyConference (EMBC), Osaka, Japan, July 2013.

[432] MILED, A., SAWAN, M., “Low-Voltage DEP Microsystem for SubmicronParticle Manipulation in ArtificialCerebrospinalFluid”, Invitedpaper, IEEE-Engineering Medicine and BiologyConference (EMBC), Osaka, Japan, July 2013.

[431] GHOLAMZADEH, B., GHAFAR-ZADEH, E., AWWAD, F., SAWAN, M., “Toward Implantable Glucometer: Design, Modeling and ExperimentalResults”, Invitedpaper, IEEE-Engineering Medecine and BiologyConference (EMBC), Osaka, Japan, July 2013.

[430] KAMRANI, E., LESAGE, F., SAWAN, M., “Towards On-Chip Integration of Brain Imaging PhotodetecorsUsing Standard CMOS Process”, IEEE-Engineering Medicine and BiologyConference (EMBC), Osaka, Japan, July 2013.

[429] NABOVATI, G., GHAFAR-ZADEH, E., AWWAD, F., SAWAN, M., “A Sigma Delta ISFET Readout Circuit for Lab-on-Chip Applications”, IEEE Int’l NEWCAS Conference, Paris, France, June 2013.

[428] MILED, A., SAWAN, M., “A 0.18µm CMOS Multilayer and LowResistiveLoad Architecture Dedicated for LoC Applications”, IEEE Int’l NEWCAS Conference, Paris, France, June 2013.

[427] MORADI, A., ZGAREN, M., SAWAN, M., “A 0.084 nJ/B FSK Transmitter and 4.8 µW OOK Receiver for ISM-Band MedicalSensor Networks”, Invited Paper, IEEE Int’l NEWCAS Conference, Paris, France, June 2013.

[426] MAAMOUN, M., BRADAI, R., NADERI A., BEGUENANE, R., SAWAN, M., “Controlled Start-Up StochasticDecoding of LDPC Codes”, IEEE Int’l NEWCAS Conference, Paris, France, June 2013.

[425] TRIGUI, A., HACHED, S., SAWAN, M., “Automatic control of inductive energytransmitted to electronic implants”, International Symposium on Wireless Power Transmission (ISPWT), Guiyang, Guizhou, China, May 2013.

[424] HACHED, S., LOUTOCHIN, O., CORCOS, J., SAWAN, M., “A NovelRemotelyControlledArtificialUrinary Sphincter”, The 2nd International Conference of RehabilitationMedical Engineering (CRME), Shanghai, China, May 2013.

[423] HASANUZZAMAN, M., SIMARD, G., KROUCHEV, N., RAUT, R., SAWAN, M., “Capacitive-Data Links, Energy-Efficient and High-Voltage Compliant Visual IntracorticalMicrostimulation System”, Invitedpaper, IEEE-ISCAS, Beijing, China, May 2013.

[422] ZHENG, Y., JACQUEMOD, C., SAWAN, M., “A Portable Lab-on-chip Platform for MagneticBeadsDensityMeasuring”, IEEE-ISCAS, Beijing, China, May 2013.

[421] MOAZZINI, S., COWAN, G., SAWAN, M., “AMismatch-RobustPeriod-Based VCO FrequencyComparison Technique for ULP Receivers”, Poster, IEEE-ISCAS, Beijing, China, May 2013.

[420] AMERI, M., KAMRANI, E., HASHEMI, S., SAWAN, M., ” A FastQuench-Reset Integrated Circuit for High-Speed Single Photon Detection”, The 8th IEEE International symposium on MedicalMeasurements and Applications (MeMeA), Gatineau, Quebec, Canada, May 4-5, 2013.

[419] MASSICOTTE, G., SAWAN, M., ” An Efficient Time-Based CMOS Potentiostat for NeurotransmittersSensing “, The 8th IEEE International symposium on MedicalMeasurements and Applications (MeMeA), Gatineau, Quebec, Canada, May 4-5, 2013.

[418] HAMIE, A., GHAFAR-ZADEH, E., SAWAN, M., ” An Implantable Micropump Prototype for Focal Drug Delivery “, The 8th IEEE International symposium on MedicalMeasurements and Applications (MeMeA), Gatineau, Quebec, Canada, May 4-5, 2013.

[417] CHADDAD, A., KAMRANI, E., LE LAN, J., SAWAN, M., “De-noisingfNIRSSignals to Enhance Brain Imaging Diagnosis”, 29thSouthernBiomedical Engineering Conference (SBEC’13), Miami, FL, USA, May 3-5, 2013.

[416] KAMRANI, E., HAMADY, M., LESAGE F., SAWAN, M., “Modeling and Characterizing Optical CMOS, Sensors for BiomedicalLow-Intensity Light Detection”, 29th SouthernBiomedical Engineering Conference (SBEC’13), Miami, FL, USA, May 3-5, 2013.

[415] KAMRANI, E., CHADDAD, A., LESAGE F., SAWAN, M., “Integrated TransimpedanceAmplifiersDedicated to Low-Noise and Low-Power Biomedical Applications”, 29th SouthernBiomedical Engineering Conference (SBEC’13), Miami, FL, USA, May 3-5, 2013.

[414] KAMRANI, E., LESAGE, F., SAWAN, M., “On-Chip Single Photon CountingElectronicCircuitryDedicated to Real-Time Brain Imaging Applications”, 29th SouthernBiomedical Engineering Conference (SBEC’13), Miami, FL, USA, May 3-5, 2013.

[413] SAWAN, M., KASHYAP, R., EL_GAMAL, M., “Configurable Contactless Optical and MEMS Based Position Sensors for Avionic Applications”, International Symposium on Research& Innovation forTransport Systemsof The Future (RITF),Paris, December 2012.

[412] ZHANG, J., HASHEMI, S., KARIMIAN, M., KOUBAA, Z., SAWAN, M., “Power Recoveryfrom Data Line in Avionic Applications”, IEEE-ICM, Algeria, December 2012.

[411] HAMADY, M., KAMRANI, E., SAWAN, M., “Modeling CMOS PIN Photodiode using COMSOL”, IEEE-ICM, Algeria, December 2012.

[410] MORADI, A.,SAWAN, M., “A 20 Mb/s 0.084 nJ/bit ISM-Band TransmitterDedicated to MedicalSensor Networks”, IEEE-ICECS, Sevilla, Spain, December 2012.

[409] HASHEMI, S., KARIMIAN, M., ZHANG, J., NADERI, A., SAWAN, M., “Generic Architecture for a Self-Powered Smart Sensor Interface in Avionic Applications”, SAE, Phoenix, USA, November 2012.

[408] MIRZAEI, M., SALAM M.T., NGUYEN, D.,SAWAN, M., “An Integrated Low-Power AsynchronousEpilepticSeizure Detector”, IEEE-BioCAS, November 2012.

[407] HAWI, F., SAWAN, M., “Phase-based Passive StereovisionSystemsDedicated to Cortical Visual Stimulators”,IEEE-ICCD, September 2012.

[406] GHAFAR-ZADEH, E., GHOLAMZADEH, B., AWWAD, F., SAWAN, M., “On-Chip Electroporation: Characterization, Modeling and ExperimentalResults”, IEEE-EMBC, September 2012.

[405] KAMRANI, E., YUN, S.H.A., LESAGE, F., SAWAN, M., “Near Infra-Red Light DetectionUsingSilicon Avalanche Photodiodes: Design Challenges in Standard CMOS Technology”, Best paperAward, SPIE 11th Int’lConf. onInfraredOptoelectronics: Materials&Devices(ICIOMD), Chicago, Sept 2012, pp. 54-55.

[404] KAMRANI, E., YUN, S.H.A., LESAGE, F., SAWAN, M., “Optimal-Adaptive ControlSystem for Low-Noise, Low-Power and FastPhotodetection in Functional NearInfra-RedSpectroscopy”, Proc. ofSPIE- ICIOM, Chicago, IL, USA, 4 – 8, September 2012, pp. 56-57.

[403] KAMRANI, E., YUN, S.H.A., LESAGE, F., SAWAN, M., “State-of-the-Art LogarithmicTransimpedance Amplifier withAutomatic Gain Control and Ambient Light Rejection for fNIRS”, SPIE- ICIOM, Chicago, Sept 2012, pp. 58-59.

[402] KAMRANI, E., LESAGE, F., SAWAN, M., “FastPhotodetection in Functional Near Infra-RedSpectroscopy”, SPIE- ICIOM,Chicago, IL, USA, 4 – 8 September 2012, pp. 57-58.

[401] KAMRANI, E., LESAGE, F., SAWAN, M., “PrematureEdge Breakdown PreventionTechniques in APD fabrication”, The 10th IEEE International NEWCAS Conference(NEWCAS2012), Montreal, Canada, June 17-20, 2012, pp. 345-348.

[400] MILED, M.A., SAWAN, M., “ElectrodeRobustness in ArtificialCerebrospinalFluid for Dielectrophoresis-BasedLoC”, IEEE-EMBC, September 2012.

[399] NABOVATI, G., GHAFAR-ZADEH, E., SAWAN, M., “Fully Digital Low-Power Self-Calibrating BPSK Demodulator for Implantable Biosensors”, IEEE-MWSCAS, August 2012.

[398] HASANUZZAMAN, M., RAUT, R., SAWAN, M., “A High-ImpedanceMicroelectrode Driver Dedicated for Visual IntracorticalMicrostimulation”, IEEE-MWSCAS, August 2012.

[397] HOSSEINI-KHAYAT, S., BAHMANYAR, P., RAHIMINEZHAD, E., SAWAN, M., “Ultra-low Power Encryption Engine for Wireless Implantable MedicalDevices”, IEEE-MWSCAS, August 2012.

[396] KARGARAN, E., SAWAN, M., MAFINEZHAD, K., NABOVATI, H., “Design of 0.4V, 386nW OTA Using DTMOS Technique for Biomedical Applications”, IEEE-MWSCAS, August 2012.

[395] SALAM, M.T., HAMIE, A.H., SAWAN, M., NGUYEN, D.K., “A Smart Biological Signal-Responsive Focal Drug Delivery System for Treatment of RefractoryEpilepsy”, CIMTEC, Italy, June 2012.

[394] SAWAN, M., SALAM, M.T., GELINAS, S., LELAN, J., LESAGE, F., NGUYEN, D.K., “Combined NIRS-EEG RemoteRecordings for Epilepsy and Stroke Real-Time Monitoring”, Invited Paper, IEEE-ISCAS, Seoul, Korea, May 2012.

[393] MOAZZINI, S., COWAN, G., SAWAN, M., “A 28μW Sub-SamplingBased Wake-Up Receiverwith -70dBm Sensitivity for 915MHz ISM Band Applications”, IEEE-ISCAS, Seoul, Korea, May 2012.

[392] KARIMIAN, M., HASHEMI, S., NADERI, A., SAWAN, M., “Impact of Gradient Error on SwitchingSequence in High-AccuracyThermometer-DecodedCurrent- SteeringDACs”, IEEE-ISCAS, Seoul, Korea, May 2012.

[391] KAR, G.C., SAWAN, M., “Low-Power High-Voltage Charge Pumps for Implantable Microstimulators”, IEEE-ISCAS, Seoul, Korea, May 2012.

[390] AL-SAYED, M., NABKI, F., SAWAN, M., EL-GAMAL, M., “A 5 V MEMS Gyroscope with 3.14 aF/o/s Sensitivity, 0.6o/ÖhrMechanical Noise and Drive-SenseCrosstalkMinimization”, IEEE-ICM, Hammamet, Tunisia, Dec 2011.

[389] LAFLAMME-MAYER, N., BLAQUIÈRE, Y., SAWAN, M., “A Novel Configurable Bandgap Reference Dedicated to Wafer-ScaleSystemsIntegration”, IEEE-ICECS, Beirut, Lebanon, Dec 2011.

[388] TARIQUS-SALAM, M., DESGENT, DUSS, S., CARMANT, L., NGUYEN, D., SAWAN, M., “New SubduralElectrode Contacts for IntracerebralElectroencephalographicRecordings: Comparative Studies on Neural Signal Recording in Vivo”, IEEE-BIOCAS, San Diego, USA, Nov 2011.

[387] DROLET, J., SEMMAOUI, H., SAWAN, M., “Low-Power Energy-Based CMOS Digital Detector for Neural RecordingArrays”, IEEE-BIOCAS, San Diego, USA, Nov 2011.

[386] KAMRANI, E., SAWAN, M., “Fully Integrated CMOS Avalanche Photodiode and Distributed-Gain TIA for CW-fNIRS”, Poster at IEEE-BIOCAS, San Diego, USA, Nov 2011.

[385] RODRIGUEZ-PEREZ, A., RUIZ-AMAYA, J., DELGADO-RESTITUTO M., SAWAN, M., “A Self-Calibration Circuit for a Neural Spike Recording Channel”, IEEE-BIOCAS, San Diego, USA, Nov 2011.

[384] SAFI-HARB, M., TARIQUS-SALAM, M., MIRABASI, S., NGUYEN, D., SAWAN, M., “A Low-Power High-Sensitivity CMOS Mixed-Signal Seizure-Onset Detector”, Invitedpaper at the IEEE-EMBC, Boston, Sept 2011.

[383] KAMRANI, E., SULTANA, A., SAWAN, M., “Tunable, low-power, high-gain Transimpedance amplifier for fNIRSphotoreceiver front-end”, IEEE-MWSCAS, Seoul, Korea, August 2011.

[382] SIMARD, G., Sawan, M., MASSICOTTE, D., “Low-Power High-Speed Capacitive Transdermal Spatial Pulse Position Modulation Communication”, IEEE-NEWCAS, Bordeaux, France, June 2011.

[381] SAIZ-VELA, A., MOUNAIM, F., MIRIBEL-CATALÃ, P., Sawan, M., “MiniaturizedSipSupplyBoardBased on TPVD Charge PumpICs for High-Voltage Biomedical Applications”, IEEE-NEWCAS, Bordeaux, France, June 2011.

[380] LAFLAMME-MAYER, N., G., BLAQUIÈRE, Y., Sawan, M., “A Dual-Power Rail, Low-Dropout, Fast-ResponseLinearRegulatorDedicated to a Wafer-ScaleElectronicSystemsPrototyping Platform”, IEEE-NEWCAS, Bordeaux, France, June 2011

[379] CHEBLI, R., SAWAN, M., “Adjustable Input Self-Strobed Delay Line ADC Intended to Implantable Devices”, IEEE-ISCAS, Buenos-Aires, Argentina, May 2011.

[378] ZHEng, Y., BEKHICHE, S., SAWAN, M., “PlanarMicrocoilsArrayApplied to MagneticBeadsBasedLab-on-chip for high throughput applications”, IEEE-ISCAS, Buenos-Aires, Argentina, May 2011.

[377] MILED, A., SAWAN, M., “A New Fully Integrated Dielectrophoretic CMOS Processing Unit for Lab-on-Chip Applications”, IEEE-ISCAS, Buenos-Aires, Argentina, May 2011.

[376] MILED, A., Gagné, A., SAWAN, M., “Dielectrophoretic Manipulation: Modeling and Integration of Microsystems basedLab-on-chip”, Invitedpaper at the IEEE-IMS3TW, San Diego, USA, May 2011.

[375] GAGNE-TURCOTTE, A., MILED, A., SAWAN, M., “An ImprovedMultiphysicsModellingApproach for Dielectrophoresis-BasedCellSeparation”, IEEE-CCECE, Niagara-Falls, May 2011.

[374] MORADI, A., SAWAN, M., “A New FSK-BasedTransmitterDedicated for Low-Power Wireless MedicalTransceivers”, IEEE-CCECE, Niagara-Falls, May 2011.

[373] TARIQUS-SALAM, M., NGUYEN, D., SAWAN, M., “A MultichannelIntracerebral EEG Monitoring system For EpilepsyPresurgicalEvaluation”, IEEE-CCECE, Biomedical and HealthInformatics Symposium, Niagara-Falls, May 2011.

[372] SEMMAOUI, H., DROLET, J., LAKHSSASSI, MARTINEZ-TRUJILLO, J.C., SAWAN, M., “An Energy Detector Applied to Unsupervised Neural SpikesDetection”, IEEE-EMBS Conf. on Neural Engineering, Cancun, Mexico, April 2011.

[371] LAREAU, E., SIMARD, G., LESAGE, F., Sawan, M., “Front-end of a Non-Invasive Wireless Real-Time Brain Imaging System Based on Near-InfraredSpectroreflectometry”, IEEE-ISMICT, Montreux, Switzerland, March 2011.

[370] HASANUZAMAN, M., SAWAN, M., RAUT, R., “An Energy-Efficient and Multiple-Waveform Stimuli Generator for Visual Cortex Microstimulation”, IFESS, Vienna, Austria, September 2010.

[369] TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., “EpilepticSeizureOnsetDetection Prior To Clinical Manifestation”, IEEE – EMBC, Buenos Aires, Argentina, August-September 2010.

[368] Sawan, M., MILED, M. A., GHAFAR-ZADEH, E., “CMOS/MicrofluidicLab-on-chip For Cells-Based Diagnostic Tools”, Invitedpaper at the IEEE-EMBC, Buenos Aires, Argentina, August-September 2010.

[367] MILED, M. A.,Sawan, M., “A New CMOS/Microfluidic Interface for CellsManipulation and Separation in LoCDevices”, IEEE-ASQED, Kuala Lumpur, 2010.

[366] Tanguay, L.F.,Sawan, M., SAVARIA, Y., “A 640 uWFrequencySynthesizerDedicated to Implantable Medical Microsystems in 90-nm CMOS”, Invitedpaper, IEEE-NEWCAS,Montreal, June 2010.

[365] MILED, M. A., Sawan, M., Moufawad-El-Achkar, C., “Low-Voltage Dielectrophoretic Platform for Lab-on-Chip Biosensing Applications”, IEEE-NEWCAS,Montreal, June 2010.

[364] Fereydouni-Forouzandeh, F., Ait-Mohamed, O., Sawan, M., “Wireless Delay Calculation&Error Compensation in Synchronization for TBCD-TDM Communication Protocol in Wireless Body Sensor Networks”, IEEE-NEWCAS, Montreal, June 2010.

[363] Laflamme-Mayer, N., Valorge, O., Blaquière, Y., Sawan, M., “A Low-Power, Small-Area Voltage Reference Array for a Wafer-ScalePrototyping Platform”, IEEE-NEWCAS, Montreal, June 2010.

[362] ETHIER, S., SAWAN, M., M., EL-GAMAL, M. “A NovelEnergy-Efficient Stimuli Generator for Very-High ImpedanceIntracorticalMicrostimulation”, IEEE-ISCAS, Paris, France, May 2010.

[361] AL-TERKAWI-HASIB, O., SAWAN, M., SAVARIA, Y., “Fully Integrated Ultra-Low-Power AsynchronouslyDrivenStep-Down DC-DC Converter”, IEEE-ISCAS, Paris, France, May 2010.

[360] SAFI-HARB, M., SAWAN, M., MIRABBASI, S., “Super-Regeneration-Inspired Time-BasedTesting of LC-Tank Oscillators”, IEEE-ISCAS, Paris, France, May 2010.

[359] MOUNAIM, F., SAWAN, M., “High-voltage DC/DC converter for high-efficiency power recovery in implantable devices”, Invitedpaper, IEEE-Int’lConf. onMicroelectronics, Marrakesh, December 2009.

[358] HASHEMI, S., SAWAN, M., SAVARIA, Y., “A Low-Area Power-Efficient CMOS Active Rectifier for WirelesslyPoweredMedicalDevices”, 16th IEEE International Conference on Electronics, Circuits and Systems, Tunisia, December 2009, pp. 635-638.

[357] TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., HAMOUI, A., “EpilepticLow-Voltage Fast-Activity Seizure-Onset Detector”, Invitedpaper at the IEEE-Int’lBiomedical Circuits and Systems (BioCAS), Beijing, China, November 2009, pp. 169-172.

[356] Fereydouni Forouzandeh, F.,AIT MOHAMED, O., SAWAN, M., AWWAD, F. “TBCD-TDM: Novel Ultra-LowEnergy Protocol for Implantable Wireless Body Sensor Networks”, IEEE-Globe Com, Hawaii, November 30 – December 4, 2009, pp. 1-6.

[355] MOUNAIM, F., SAWAN, M., “Integrated inductive power and data recovery front-end dedicated to implantable devices”, IEEE-BioCASConference, Beijing, China, November 2009, pp. 229-232.

[354] MAHDAVI, S., NABKI, F., SAWAN, M., EL-GAMAL, M.N.; «On the testing of MEMS resonators», 4thInt’l Design and Test Workshop (IDT), Riyadh, SaudiArabia, November 2009, pp. 1-6.

[353] GOSSELIN, B., Sawan, M., “Circuits techniques and microsystemsassembly for Intracorticalmultichannel ENG recording”, IEEE-Custom Integrated Circuits Conference (CICC), San Jose, USA, September 2009, pp. 97-104.

[352] Sawan, M., GOSSELIN, B., “Multichannelneurorecordingfrom the cortex: integration and packaging challenges”, Invitedpaper at The Symposium on Integrated Circuits and Systems Design (SBCCI), Natal, Brazil, September 2009, pp. 1-4.

[351] ABDOLEE, R., ZHU, W.P., SAWAN, M., “Digital Beam-formingImplementation for Downlink Smart Antenna System”, IEEE-MWSCAS, Cancun, Mexico, August 2009, pp. 615-619.

[350] ETHIER, S., SAWAN, M., ABOULHAMID, M., EL-GAMAL, M. “A ±9 V Fully Integrated CMOS Current Source for High-ImpedanceMicrostimulation”, IEEE-MWSCAS, Cancun, Mexico, August 2009, pp. 192-195.

[349] WEHBE, M., SAWAN, M. “DynamicPupilReacting to Incident Light Dedicated to Ocular Implants”, IEEE-MWSCAS, Cancun, Mexico, August 2009, pp. 176-179.

[348] HASHEMI, S., SAWAN, M., SAVARIA, Y., “Fully-Integrated Low-Voltage High-Efficiency CMOS Rectifier for WirelesslyPoweredDevices”, IEEE-NEWCAS, Toulouse, France, July 2009, pp. 48-51.

[347] GOSSELIN, M., SAWAN, M., “Event-Driven Data and Power Management in High-Density Neural Recording Microsystems”, Invitedpaper at IEEE-NEWCAS, Toulouse, France, July 2009, pp. 65-68.

[346] AIT YACOUB, M., SAWAN, M., THIBEAULT, C., “A Neuromimetic Ultra low-power ADC for Bio-Sensing Applications”, IEEE-NEWCAS, Toulouse, France, July 2009, pp. 41-44.

[345] TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., HAMOUI, A., “Low-power CMOS-basedepilepticseizureonset detector”, IEEE-NEWCAS, Toulouse, France, July 2009, pp. 52-55.

[344] MILED, A., Sawan, M., “Reconfigurable DielectrophoreticDevice for NeurotransmittersSensing and Manipulation”, the IEEE Mixed-Signals, Sensors and Systems Test Workshop, Scottsdale, Arizona, USA, June 2009, pp. 1-4.

[343] SIMARD, G., SAWAN, M., MASSICOTTE, D., “NovelCoilsGeometryIntended for Biomedical Implants with Multiple Carrier Inductive Link”, IEEE-ISCAS, Taipei, Taiwan, May 2009, pp. 537-540.

[342] GOSSELIN, B., ZBRZESKI, A., SAWAN, M., KERHERVÉ, E., “Low-Power Linear-Phase Delay Filters for Neural Signal Processing: Comparison and Synthesis”, IEEE-ISCAS, Taipei, Taiwan, May 2009, pp. 1261-1264.

[341] TANGUAY, L.F., SAWAN, M., SAVARIA, Y., “A Very-High Output ImpedanceCurrent Mirror for Low Voltage BiomedicalAnalog Circuits”, Invitedpaper,IEEE-APCCAS, Macao, China, December 2008, pp. 642-645.

[340] SAWAN, M., GOSSELIN, B., COULOMBE, J., “Learning from the Primary Visual Cortex to Recover Vision for the Blind by Micro stimulation”, Invitedpaper,IEEE-NORCHIP, Tallinn, Estonia, Nov. 2008.

[339] MOUNAIM, F., SAWAN, M., EL-GAMAL, M., “Fully-integrated inductive power recovery front-end dedicated to implantable devices”, IEEE-BioCAS, Baltimore, USA, November 2008, pp. 105-108.

[338] GOSSELIN, B., SAWAN, M., “Adaptive Detection of Action PotentialsUsing Ultra Low-Power CMOS Circuits”, IEEE-BioCAS, Baltimore, USA November 2008, pp. 209-212.

[337] RHOU, B., SAWAN, M., “Real-time filtering technique to remove ECG interferencefromrecordedesophageal EMG”, IEEE-BioCAS, Baltimore, November 2008, pp. 21-24.

[336] TANGUAY, L.F., SAWAN, M., “Process Variation Tolerant LC-VCO Dedicated to Ultra-Low Power Biomedical RF Circuits”, Invitedpaper,IEEE-ICSICT, Beijing, China, 2008, pp. 1585-1588.

[335] MOUNAIM, F., ELZAYAT, E., SAWAN, M., CORCOS, J., ELHILALI, M.M., “New sacral neuro stimulation strategy to enhancemicturition in paraplegics”, IFESS, Germany, September 2008, pp. 22-24.

[334] NEMR, A., CARDiNAL, C., SAWAN, M., “Very High ThroughputIterativeThresholdDecoder for Convolutional Self-Doubly Orthogonal Codes”, 3rd place Best studentpaper,IEEE-NEWCAS, Montreal,June 2008, pp. 257-260.

[333] AWWAD, F., NEKILI, M., SAWAN, M., “Performance MetricsStudy for Repeater-Insertion Strategies”, IEEE-NEWCAS, Montreal,June 2008, pp.359-362.

[332] GHAFAR-ZADEH, E., A., SAWAN, M., “A Charge Based Sigma Delta Capacitive Sensor for UltrathinPolyelectrolyte Layer Detection”, 1st place best studentpaper,IEEE-NEWCAS, Montreal,June 2008, pp. 45-48.

[331] Fereydouni-Forouzandeh, F., AIT MOHAMED, O., SAWAN, M., “Ultra LowEnergy Communication Protocol for Implantable Body Sensor Networks”, IEEE-NEWCAS, Montreal,June 2008, pp. 57-60.

[330] GHAFAR-ZADEH, E., A., SAWAN, M., SHABANI, A., ZOUROB, M., CHODAVARAPU, V.,“BacteriaGrowth Monitoring Through an On-Chip Capacitive Sensor”, IEEE-IMS3TW, Vancouver, June 2008.

[329] GHAFAR-ZADEH, E., Sawan, M. “TowardFully Integrated CMOS based Capacitive SensorLab-on-Chip”, IEEE MedicalMeasurement and Applications (MEMEA), Ottawa, May 2008, pp. 77-80.

[328] LEVESQUE, P., SAWAN, M., “New digital quadrature demodulator for real-time hand-heldultrasoundmedicalimagingdevice”, IEEE-ISCAS, Seattle, USA, May 2008, pp. 2949-2952.

[327] GOSSELIN, B., SAWAN, M., “An Ultra Low-Power CMOS Action Potential Detector”, IEEE-ISCAS, Seattle, USA, May 2008, pp. 2733-2736.

[326] LU, Z., SAWAN, M., “An 8 Mbps Data Rate Transmission by Inductive Link Dedicated to Implantable Devices”, IEEE-ISCAS, Seattle, USA, May 2008, pp. 3057-3060.

[325] MILED, M.A., SAWAN, M., «Subthreshold Transistor Operation for a High Sensitivity Capacitive Sensor», Canadian Conference on Electrical and Computer Engineering, CCECE 2008, Niagara Falls, Ontario, May 2008, pp. 1671-1674.

[324] OULD BACHIR, T., SAWAN, M., BRAULT, J.-J., «A New Hardware Architecture for Sampling the Exponential Distribution», Canadian Conference on Electrical and Computer Engineering, CCECE 2008, Niagara Falls, Ontario, May 2008, pp. 1393-1396.

[323] SAWAN, M., GOSSELIN, B., COULOMBE, J., AYOUB, A.E., CHAUDHAURI, A., LEPORE, F., “Implantable electronics for the recovery of neuromuscularfunctions”, The 3rd International Conference on Smart Materials Structures and Systems(CIMTEC), Italy, 2008.

[322] Hashemi, S., SAWAN, M., SAVARIA, Y., “A NovelFully-Integrated Dropless Voltage CMOS Rectifier for WirelesslyPoweredDevices”, IEEE-ICM, Cairo, Egypt, December 2007.

[321] GHANNOUM, R., SAWAN, M., “A 90nm CMOS Multimode Image SensorIntended for a Visual Cortical Stimulator”, IEEE-ICM,Cairo, Egypt,December2007, pp. 179-182.

[320] GOSSELIN, B., SAWAN, M., “A Low-Power Integrated Neural Interface with Digital Spike Detection and Isolation”, IEEE-ICECS,Marrakech, Morocco, December2007, pp. 1412-1415.

[319] VALORGE, O., MARCHE, D., LACOURSE, A., SAWAN, M., and SAVARIA, Y., “Signal IntegrityAnalysis of a High Precision D/A Converter”, International Conference on Electronics, Circuits and Systems, IEEE-ICECS, Marrakech, Morocco, December 2007, pp. 1224-1227.

[318] ABDERRAHMAN, A., Savaria, Y., KHOUAS, A., SAWAN, M., “New Analog Test MetricsBased on Probabilistic and DeterministicCombinationApproaches”, International Conference on Electronics, Circuits and Systems, IEEE-ICECS, Marrakech, Morocco, December 2007, pp. 82-85.

[317] MOUNAIM, F., SAWAN, M., “Long-term monitoring of electrochemicalparametersfromstimulated neural tissues”, Invited Paper IEEE-BiOCAS,Montreal,November 2007, pp. 25-28.

[316] GOSSELIN, B., SAWAN, M., “A Mixed-Signal Multi-Chip Neural Recording Interface withBandwidthReduction”, IEEE-BiOCAS, Montreal,November 2007, pp. 49-52.

[315] CHENIER, F., SAWAN, M., “A New Brain Imaging DeviceBased on fNIRS”, IEEE-BiOCAS, Montreal,November2007, pp. 1-4.

[314] NAJMABADI, M., DEVABHAKTUNI, V., SAWAN, M., FALLONE, C., “WaveletDecomposition for the Analysis of EsophagealManometric Data in the Study of Gastroesophageal Reflux Disease”, IEEE-BiOCAS, Montreal,November2007, pp. 207-210.

[313] GHAFAR-ZADEH, E., SAWAN, M., «A 0.18µm CMOS Capacitive DetectionLab-on-Chip», Custom Integrated Circuits Conference, CICC ’07, San Jose, California, USA, September 2007, pp. 165-172.

[312] ROBERT, P.Y., SAWAN, M., “An independent-component-analysis-based time-space processor for the identification of neural stimulation sources”, IEEE-EMBS, France, August 2007, pp. 3876-3879.

[311] AYOUB, A.E., GOSSELIN, B., SAWAN, m., “A MicrosystemIntegration Platform Dedicated to Build Multi-Chip Neural Interfaces”, IEEE-EMBS, France, August 2007, pp. 6604-6607.

[310] ABDERRAHMAN, A., Savaria, Y., KHOUAS, A., Sawan, M., “AccurateTestabilityAnalysisbased-on Multi-frequency Test Generation and New test metric”, IEEE-NEWCAS, 5th IEEE International Northeast Workshop on Circuits and Systems, NEWCAS/MWSCAS, Montreal, Canada, August 2007, pp. 1356-1359.

[309] GHAFAR-ZADEH, E., Sawan, M., HAJJ-HASSAN, M., and MILED, A. “A CMOS BasedMicrofluidic Detector: Design, Calibration and ExperimentalResults”, IEEE-NEWCAS, 5th IEEE International Northeast Workshop on Circuits and Systems, (NEWCAS et MWSCAS) Montreal, Canada, August 2007, pp. 193-196.

[308] MILED, A., GHAFAR-ZADEH, E., and Sawan, M., “FastDecodingAlgorithm for First Order DC-Input Sigma-Delta Modulators”, IEEE-NEWCAS, 5th IEEE International Northeast Workshop on Circuits and Systems, (NEWCAS et MWSCAS) Montreal, Canada, August 2007, pp. 1380-1383.

[307] TANGUAY, L.F., SAWAN, M., “A Fully-Integrated 580 μW ISM-Band FrequencySynthesizer for Implantable MedicalDevices”, Invitedpaper,IEEE-ISSCS, Iasi, Romania, July 2007, Vol. 1 pp. 1-4.

[306] Ensandoust, F., Gosselin, B., and Sawan, M., “Low-Power High-Accuracy Compact Implementation of AnalogWaveletTransforms”, IEEE-NEWCAS, 5th IEEE International Northeast Workshop on Circuits and Systems, (NEWCAS et MWSCAS) Montreal, Canada, August 2007, pp. 185-188.

[305] NADERI, A., Sawan, M., SAVARIA, Y., “A 1.8GHz CMOS Continuous-Time Band-Pass Delta-Sigma Modulator for RF Receivers”, IEEE-NEWCAS,5th IEEE International Northeast Workshop on Circuits and Systems, (NEWCAS et MWSCAS) Montreal, Canada, August 2007, pp. 1078-1081.

[304] Ghafar-Zadeh, E., SAWAN, M., “A CMOS-Based Capacitive Sensor for Laboratory-On-Chips: Design and ExperimentalResults”, IEEE-ISCAS, New Orleans, USA, May 2007, pp. 85-88.

[303] MOUNAIM, F., SAWAN, M., “Miniature Implantable System Dedicated to Bi-Channel Selective Neurostimulation”, InvitedpaperIEEE-ISCAS, New Orleans, USA, May 2007, pp. 2072-2075.

[302] Doljanu, A.D., SAWAN, M., “3D Shape Acquisition System Dedicated to a Visual IntracorticalStimulator”, IEEE-ISCAS, New Orleans, USA, May 2007, pp. 1313-1316.

[301] Valorge, O., Gosselin, B., Tanguay L.-F., and Sawan, M., “Electromagnetic Compatibility Modeling in Low-noise MedicalSensor Interfaces”, IEEE-ISCAS, New Orleans, USA, May 2007, pp. 1545-1548.

[300] Chebli, R., Sawan, M., Savaria, Y., and El-Sankary, K., “High-voltage DMOS integrated circuits withfloatinggate protection technique”, IEEE-ISCAS, International Conference on Electronics, Circuits and Systems, New Orleans, USA, May 2007, pp. 3343-3346.

[299] KASSEM, A., SAWAN, M., “An Efficient SoCDedicated to Ultrasonic Digital Imaging”, IEEE-IWSOC, Cairo, Egypt, December 2006, pp. 165-168.

[298] TANGUAY, L.F., SAWAN, M., “Low Power SAW-BasedOscillator for an Implantable MultisensorMicrosystem”, Invitedpaper,IEEE-APCCAS, Singapore, December 2006, pp. 494-497.

[297] LESBROS, G., SAWAN, M., “Multiparameters monitoring for long term in-vivo characterization of electrode-tissues contacts”, IEEE-ICECS, Nice, France, December 2006, pp. 25-28.

[296] DUPIRE, T., TANGUAY, L.F., SAWAN, M., “Low power CMOS transmitter for biomedicalsensingdevices”, IEEE-ICECS, Nice, France, December 2006, pp. 339-342.

[295] GHAFAR-ZADEH, E., SAWAN, M., “Electro-Fluidic Packaging for CMOS BasedLaboratory-On-Chips”, ASME-IMECE, Chicago, Illinois, November 2006, pp. 1-4.

[294] VEILLEUX, N., SAWAN, M., “Modélisation d’une architecture générique d’un système ultrasonore embarqué”, TAISA, France, October 25-27 2006.

[293] MOUNAIM, F., SAWAN, M., BÉDARD, S., “Implantable Neuro-Monito-Stimulation System Dedicated to Enhance the BladderFunctions”, IEEE-BIOCAS, London, UK, December 2006, pp. 198-201.

[292] NADEAU, P., SAWAN, M., “A flexible high voltage biphasic pulse generatordedicated for constant currentelectrical stimulation”, IEEE-BIOCAS, London, UK, December 2006, pp. 206-209.

[291] GOSSELIN, B., FANIEL, L., SAWAN, M., “A high data rate telemetry system for multi-channelbiosignalrecording”, IEEE-BioCAS, London, UK, December 2006, pp. 170-173.

[290] GHAFAR-ZADEH, E., SAWAN, M., “Charge Based Capacitive SensorArray for CMOS BasedLaboratory-On-Chip Applications”, Invitedpaper,IEEE-Sensors, Daegu, Korea, October 2006, pp. 378-381.

[289] ROBILLARD, C., COULOMBE, J., NADEAU, P., SAWAN, M., “Neural stimulation safety and energyefficiency: Waveformanalysis and validation “, IFESS, Japan, September 2006, pp. 94-97.

[288] GOSSELIN, B., FANIEL, L., SAWAN, M., “A wearable high throughputwireless data transmitter for medical monitoring applications”, IFESS, Japan, September 2006, pp. 222-224.

[287] GOSSELIN, B., ROBERT, P.Y., L., SAWAN, M., “A Scalable Design for Signal Conditioning and Digitization in Implantable Multi-Channel Neural Sensors”, IEEE-CAMPS,Montreal, Aug. 2006, pp. 73-74.

[286] CHEBLI, R., SAWAN, M., “High-Voltage CMOS/DMOS Interface Dedicated for UltrasonicSensing”, IEEE-CAMPS,Montreal, August 2006, pp. 71-72.

[285] GHAFAR-ZADEH, E., SAWAN, M., “Flexible BiochemicalSensorArray for EnvironmentalLaboratory-On-Chip Applications”, IEEE-CAMPS,Montreal, August 2006, pp. 65-66

[284] GHAFAR-ZADEH, E., SAWAN, M., “CMOS-Based Capacitive SensorArrayDedicated to MicrofluidicStudies”, IEEE-CAMPS,Montreal, August 2006, pp. 42-43.

[283] TANGUAY, L.F., SAWAN, M., “An Ultra-Low Power, Fully Integrated VCO for an Implantable Wireless SensorMicrosystem in 90-nm CMOS”, IEEE-CAMPS,Montreal, August 2006, pp. 32-33.

[282] DOLJANU, A., SAWAN, M., “3D Reconstruction of DynamicScenesDedicated to an Image Sensor of a Visual intracorticalstimulator”, IEEE-CAMPS,Montreal, August 2006, pp. 177-178.

[281] HAJJ-HASSAN, M., SAWAN, M., PETER, Y.A., “MEMS-BasedElectrostaticActuated Scanner Dedicated for UtrasoundSensors”, IEEE-CAMPS,Montreal, August 2006, pp. 69-70.

[280] MOUNAIM, F., SAWAN, M., “Implantable ElectronicDeviceDedicated to Neural Stimulation and Sensing”, IEEE-CAMPS, Montreal, August 2006, pp. 196-197.

[279] LESBROS, G., SAWAN, M., “Wireless Implantable SensingDevice for In-Vivo Monitoring of Electrode-Tissues Contact Variation”, IEEE-CAMPS,Montreal, August 2006, pp. 67-68.

[278] EL-SANKARY, K., SAWAN, M., “10-b 100-MS/s Two-Channel Time-InterleavedPipelined ADC”, IEEE-CICC, San Jose, USA, September 2006, pp. 217-220.

[277] AUCLAIR, G., SAWAN, M., DÉSILETS, T., BELLEMARE, F., “Electrical stimulation for the treatment of obstructive sleepapnea (OSA): system design and experimentalresults”, AWC, Kansas City, USA, September 2006, vol. 7, supplement 2, p. S-74

[276] HAJJ-HASSAN, M., SAWAN, M., PETER, Y.-A., “MEMS-Based Scanner Dedicated for UltrasoundMedical Imaging”, IEEE-MWSCAS, Puerto-Rico, August 2006, pp. 100-103.

[275] ROBERT, P.-Y., AYOUB, A.-E., GOSSELIN, B., SAWAN, M., “An Ultra-Low-Power Successive-Approximation-Based ADC for Implantable SensingDevices”, IEEE-MWSCAS, Puerto-Rico, August 2006, pp. 7-11.

[274] RAJAGOPALAN, S., GHAFAR-ZADEH, E., SAWAN, M., “CMOS-based glucose monitor usingbiofunctionalisedpolypyrroleelectrodes”, Biosensors, Toronto, July 2006.

[273] TANGUAY, L.-F., SAWAN, M., “An Implantable Multi-SensorMicrosystemDedicated to Biotelemetry Applications”, Restoration of Joint Function Workshop, Canadian Arthritis Network, Vancouver, June 2006.

[272] ALI, S.M., RAUT, R., SAWAN, M., “Digital Encoders for High Speed Flash-ADCs: Modeling and Comparison”, IEEE-NEWCAS, International Northeast Workshop on Circuits and Systems, Gatineau, Canada, June 2006, pp. 69-72.

[271] GOSSELIN, B., SAWAN, M., “A Low-Power BioamplifierWith a New Active DC Rejection Scheme”, Invitedpaper,IEEE-ISCAS, International Conference on Electronics, Circuits and Systems, Kos, Greece, May 2006, pp. 2185-2188

[270] NADERI, A., SAWAN, M., SAVARIA, Y., “A Novel 2-GHz Band-pass Delta ModulatorDedicated to Wireless Receivers”, IEEE-ISCAS, Kos, Greece, May 2006, pp. 1900-1903.

[269] DENG, S., SAWAN, M., “A High Data Rate QPSK Demodulator for InductivelyPowered Electronics Implants”, IEEE-ISCAS, Kos, Greece, May 2006, pp .2577-2580.

[268] DESILETS, T., SAWAN, M., BELLEMARE, F., “Wireless EsophagealCatheterDedicated to RespiratoryDiseases Diagnostic”, IEEE-ISCAS, Kos, Greece, May 2006, pp. 2581-2584.

[267] DUMORTIER, C., GOSSELIN, B., SAWAN, M., “WaveletTransformsDedicated to CompressRecordedENGsfromMultichannel Implants: Comparative Architectural Study”, IEEE-ISCAS, Kos, Greece, May 2006, pp. 2129-2132.

[266] HASHEMI, S., SAWAN, M., SAVARIA, Y., “A Power Planning Model for BioelectronicsDevices”,IEEE-ISCAS, Kos, Greece, May 2006, pp. 2925-2928.

[265] HUANG, Z., SAWAN, M., SAVARIA, Y., “High-Voltage Operational Amplifier Based on Dual Floating-Gate Transistors”, IEEE-ISCAS, Kos, Greece, May 2006, pp. 4269-4272.

[264] LIN, K.-Y., TSANG, T., SAWAN, M., EL-GAMAL, M., “Radio-Triggered Solar And Rf Power Scavenging and Management for Ultra Low Power Wireless Medical Applications”, IEEE-ISCAS, Kos, Greece, May 2006, pp. 5728-5731.

[263] GHAFAR-ZADEH, E., SAWAN, M., THERRIAULT, D., “Direct-write CMOS basedLab-on-chip”, NSTI Nanotech, Boston, USA, May 2006, pp. 61.415-61.418

[262] GHAFAR-ZADEH, E., THERRIAULT, D., SAWAN, M., “Programmable Three-DimensionalMicrofluidic Fabrication by Direct-Write Assembly”, NSTI Nanotech, Boston, USA, May 2006, pp. 60-701-60-704.

[261] NADERI, A., SAWAN, M., SAVARIA, Y., “Design of an Active-RC BandpassFilter for A Subsampling RF Delta Modulator”, IEEE-CCECE, Canadian Conference on Electrical and Computer Engineering, Ottawa, May 2006, pp. 967-970.

[260] GHAFAR-ZADEH, E., SAWAN, M., “CMOS basedbioparticle capacitive sensorintegratedwith direct-writeMicrofluidicdevices”, IEEE-CCECE, Canadian Conference on Electrical and Computer Engineering, Ottawa, Canada, May 2006, pp. 1613-1616.

[259] HARB, A., SAWAN, M., “Fully Integrated Rectification and Bin-IntegrationAnalog Circuit for Biomedical Signal Processing”, IEEE-ICECS,Tunisia, December 2005, pp. 14-17.

[258] CHEBLI, R., SAWAN, M., SAVARIA, Y., “Gateoxide protection in HV CMOS/DMOS integrated circuits: Design and experimentalresults”, IEEE-ICECS, IEEE International Conference on Electronics, Circuits, and Systems,Tunisia, December 2005, pp. 18-21.

[257] LU, Z., GOSSELIN, B., SAWAN, M., “A 16-bit Sigma-Delta Modulator for low power medical implantable sensors”, IEEE-ICECS, IEEE International Conference on Electronics, Circuits, and Systems,Tunisia, December 2005, pp. 8-11.

[256] HASHEMI, S., SAWAN, M., SAVARIA, Y., “Modeling Power Budget Requirements of Implantable Electronicdevices”, IEEE-ICECS, IEEE International Conference on Electronics, Circuits, and SystemsTunisia, December 11-14, 2005, pp. 40-43.

[255] GHAFAR-ZADEH, E., SAWAN, M., THERRIAULT, D., “Direct-Write Fabrication of Microchanneldedicated to CMOS-basedLab-on-chip Applications”, ASME, Orlando, November 2005, pp.1-4.

[254] SAWAN, M., HU, Y., COULOMBE, J., “WirelesslyPowered and Bidirectional Data Exchanged in Smart Medical Microsystems”, IEEE-CICC, San Francisco, September 21, 2005, pp. 5-12.

[253] CHEBLI, R., SAWAN, M., “A Programmable Positive and Negative High-Voltage DC-DC ConverterDedicated for Ultrasonic Applications”, IEEE-MWSCAS, Cincinnati, August 7-10, 2005, vol. 1, pp. 679-682.

[252] GHAFAR-ZADEH, E., SAWAN, M., “A High AccuracyDifferential Capacitive Circuit for BioparticlesSensing Applications”, IEEE-MWSCAS, Cincinnati, August 7-10, 2005, vol. 2, pp. 1362-1365.

[251] LAZZIRI, Y., SAWAN, M., “Electrode-tissues interface: Modeling and acute experiments on dogs”, IFESS, Montréal, July 5-8, 2005, pp. 364-366.

[250] PAQUET-FERRON, D., SAWAN, M., “Peripheral Nerve Modeling for Selective Stimulation Improvement”, IFESS, Montreal, July 5-8, 2005, pp. 373-375.

[249] SEHIL, M., KHOUAS, H., SAWAN, M., “Modeling Efficient Inductive Power Transfer Required to Supply Implantable Devices”, IFESS, Montréal, July 5-8, 2005.

[248] MOUNAIM, F., LAAZIRI, Y., LESBROS, G., NADEAU, P., BHARUCHA, É. SAWAN, M., BEDARD, S., “Implantable neurostimulator for bladderrehabilitation in paraplegics”, IFESS, Montréal, July 5-8, 2005, pp. 221-223.

[247] ACHIGUI, H., SAWAN, M., FAYOMI, C., “A 1 V Low Power, Low Noise DTMOS based NIRS Front-End Receiver”, IEEE-WMSCI, Florida, July 10-13, 2005.

[246] ALI, S.M., RAUT, R., SAWAN, M., “A Power Efficient Decoder for 2GHz, 6-bit CMOS Flash-ADC Architecture”, IEEE-IWSOC, Banff, Alberta, July 20-24, 2005, pp. 123-126.

[245] MORIN, D., SAVARIA, Y., SAWAN, M., “A 200 MSPS 10-bit Pipelined ADC Using Digital Calibration”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 67-70.

[244] NADERI, A., SAWAN, M., SAVARIA, Y., “A 1-mW 2-GHz Q-Enhanced LC BandpassFilter For Low-Power RF Applications”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 365-368.

[243] SAWAN, M., DJEMOUAI, A., EL-SANKARY, K., DANG, H., NADERI, A., SAVARIA, Y., GAGNON, F., “High Speed ADCsDedicated for Wideband Wireless Receivers”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 283-286.

[242] SAHEB, J.F., RICHARD, J.F., MEINGAN, R., SAWAN, M., SAVARIA, Y., “System Integration of High Voltage Electrostatic MEMS Actuators”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 155-158.

[241] ROY, J.F., SAWAN, M., “A Fully Reconfigurable Controller Dedicated to Implantable RecordingDevices”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 303-306.

[240] ACHIGUI, H., SAWAN, M., FAYOMI, C., “A 1–V Low-Power, Low-Noise, DTMOS-Based Class AB Opamp”, IEEE-NEWCAS, June 19-22, 2005, pp. 307-310.

[239] GHAFAR-ZADEH, E., SAWAN, M., “A High Precision and LinearityDifferential Capacitive Sensor Circuit Dedicated to BioparticlesDetection”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 299-302.

[238] PROVOST, G., SAWAN, M., CARDINAL, C., HACCOUN, D., “Implementation and Error Performance Evaluation of an IterativeDecodingAlgorithm”, IEEE-NEWCAS, Quebec, June 19-22, 2005, pp. 263-266.

[237] LEBEL, E., ASSI, A., SAWAN, M., “Field Programmable Gm-C Array for Wide Frequency Range BandpassFilter Applications”, IEEE-ISCAS, Kobe, Japan, May 23-26, 2005, vol. 3, pp. 1952-1955.

[236] FAYOMI, C., ROBERTS, G., SAWAN, M., “Low-Voltage CMOS AnalogBootstrapped Switch for Sample-And-Hold Circuit: Design and Chip Characterization”, IEEE-ISCAS, Kobe, Japan, May 23-26, 2005, vol. 3, pp. 2200-2203.

[235] PROVOST, G., CANTIN, M.A., SAWAN, M. et al., “FastParametersOptimization of an IterativeDecoderusing a Configurable Hardware Accelerator”, IEEE-ISCAS, Kobe, Japan, May 23-26, 2005, vol. 4 pp. 4159-4162.

[234] DANG, H., G., SAWAN, M., SAVARIA, Y., “A NovelApproach for Implementing Ultra High-Speed Flash ADC Using MCML Circuits”, IEEE-ISCAS, International Conference on Electronics, Circuits, and Systems, Kobe, Japan, May 23-26, 2005, vol. 6, pp. 6158-6161.

[233] LAZZIRI, Y., SAWAN, M., “Electrode-Tissue Interface (ETI): Modeling and experimentalmeasurements”, ISAB, Montréal, April 25-28, 2005, p. 213.

[232] SEHIL, M., KHOUAS, H., SAWAN, M., “Modeling Inductive Power Transfer Required to supply Implantable devices”, ISAB, Montréal, April 25-28, 2005, p. 214.

[231] NORMANDIN, F., SAWAN, M., FAUBERT, J., “Front-end of a Non-Invasive Wireless Real-Time Brain Imaging System Based on Near-InfraredSpectroreflectometry”, IEEE-BIOCAS, Singapore, December 1-3, 2004.

[230] GOSSELIN, B., SIMARD, V., ROY, J.F., MARROUCHE, W., DUMORTIER, C., SAWAN, M., “Multichannelwireless cortical recording:  circuits, system design and assembly challenges”, IEEE-BIOCAS, Singapore, December 1-3, 2004.

[229] ELSANKARY, K., SAWAN, M., “High resolution self-calibratedADCs for Software Defined Radios”, IEEE-ICM, Tunisia, December 6-8, 2004, pp. 120-123.

[228] ZHAO, X., Chebli, R., Sawan M., “A Wide Tuning Range Voltage-Controlled Ring Oscillatordedicated to UltrasoundTransmitter”, IEEE-ICM, Tunisia, December 6-8, 2004, pp. 313-316.

[227] Tanguay, B., SAVARIA, Y., Sawan M., “AcceleratingEqualizationAlgorithmsUsing the Xtensa Configurable Processor”, IEEE-ICM, International Conference on Microelectronics, Tunisia, December 6-8, 2004, pp. 434-437.

[226] Chouia, Y, El-Sankary, K., Saleh, A., Sawan M., Ghannouchi, F., A New Technique for Designing High Performance Front-End Sample and Hold Circuits”, IEEE-ICM, Tunisia, December 6-8, 2004, pp. 16-19.

[225] EL-SANKARY, K., SAWAN, M., “Background capacitorMismatch Calibration for Pipelined ADC” IEEE-ICM, Tunisia, December 6-8, 2004, pp. 164-167.

[224] QIN, L., ELSANKARY, K, SAWAN, M., “A 1.8V CMOS Fourth-OrderGm-C Bandpass Sigma-Delta ModulatorDedicated to Front-end UltrasonicReceivers”, IEEE-ICSICT, Beijing, China, October 18-21, 2004, vol. 2, pp. 1425-1428.

[223] TRÉPANIER, A., TRÉPANIER, J.L., SAWAN, M., AUDET, Y., “New CMOS digital pixel sensor architecture dedicated to a visual cortical implant”, IEEE-PhotonicNorth, Ottawa, September 16-18, 2004. Pp. 365-376.

[222] GOSSELIN, B., SIMARD, V., ROY, J.F., SAWAN, M., “A Low-Power Front-End Module Dedicated to Wireless Cortical Data Recording”, IEEE-CMBES, Quebec, September 2004.

[221] AMEZZANE I., SAWAN, M., BELLEMARE, F., HALLÉ, S., “A CFD Qualitative Study of an Infant’sPlethysmograph”, IEEE-CMBES, Quebec, September 2004.

[220] COULOMBE, J., SAWAN, M., “A Power Efficient Electronic Implant for a Visual Cortical Stimulator”, Vienna Workshop on FES, Vienna, Austria, September 10-13, 2004, pp. 172-175.

[219] SIMARD, V., GOSSELIN, B., SAWAN, M., “An AnalogWavelet Processor for an Implantable Cortical SignalsRecording System”, Vienna Workshop on FES, Vienna, Austria, September 10-13, 2004, pp. 164-167.

[218] GOSSELIN, B., SAWAN, M., “A HighlyParallelizable Signal Conditioning Module Dedicated to Cortical Implantable Monitoring Devices”, IFESS, Bournemouth, England, September 6-9, 2004, pp. 401-403.

[217] COULOMBE, J., HU, Y., GERVAIS, J.-F., SAWAN, M., “An Implant for a Visual Cortical Stimulator”, CDEN Biomimetics Symposium, Montreal, September 3-5, 2004.

[216] HUANG, Z., SAVARIA Y., SAWAN, M., “A DynamicallyControlled and RefreshedLow-Power Level-up Shifter”, Midwest Symposium on Circuits, and Systems, IEEE-MWSCAS, Hiroshima, Japan, July 25-28, 2004, vol. 1, pp. 97-100.

[215] HU, Y., SAWAN, M., “A Fully-Integrated Low-Power BPSK Based Wireless Inductive Link for Implantable MedicalDevices”, IEEE-MWSCAS, Hiroshima, July 25-28, 2004, vol. 3, pp. 25-28

[214] TRÉPANIER, A., TRÉPANIER, J.L., SAWAN, M., AUDET, Y., “A Multiple Operation Mode CMOS Digital Pixel SensorDedicated to a Visual Cortical Implant”, IEEE-MWSCAS, Hiroshima, July 25-28, 2004, vol. 1, pp. 369-372.

[213] Chouia, Y, El-Sankary, K., Saleh, A., Sawan M., Ghannouchi, F., “14 b, 50MS/s CMOS Front-End S/H Module Dedicated to a Pipelined ADC”, IEEE-MWSCAS, Hiroshima, July 25-28, 2004, vol. 1, pp. 353-356.

[212] MORIN, D., Normandin, F., Grandmaison, M.E., Dang, H., SAVARIA Y., SAWAN, M., “An IP Module for Auto-Calibration of Time-InterleavedPipelinedADCs”, 4th IEEE International Workshop on System-on Chip for Real-Time Applications, IEEE-IWSOC, Banff, Alberta, July 19-21 2004, pp. 111-114.

[211] CHEBLI, R., SAWAN, M., “A CMOS High-Voltage DC-DC Up ConverterDedicated for Ultrasonic”, IEEE-IWSOC, Banff, Alberta, July 19-21, 2004, pp. 119-121.

[210] NOHRA, G., RAUT, R., SAWAN, M., «A 0.85 V Tunable Gain 5 GHz Cascade Low Noise Amplifier», Regular Session 1:  IEEE-NEWCAS, Montreal, June 20-23, 2004, pp. 353-356.

[209] HASHEMI, S., SAWAN, M., SAVARIA Y., “Characterization of Stress InducedDefects in DeepSub-Micron MOSFETs”, International Northeast Workshop on Circuits and Systems, IEEE-NEWCAS, Montreal, June 20-23, 2004, pp. 329-332.

[208] HUANG, Z., SAVARIA Y., SAWAN, M., “Robust Design of a DynamicallyControlledLow-Power Level-up Shifter Operating up to 300V”, International Northeast Workshop on Circuits and Systems, IEEE-NEWCAS, Montreal, June 20-23, 2004, pp. 321-324

[207] GOSSELIN, B., SIMARD, V., SAWAN, M., “Low-Power Implantable MicrosystemIntended to Multichannel Cortical Recording”, IEEE-ISCAS, Vancouver, May 23-26, 2004, vol. 4, pp. 5-8.

[206] EL-SANKARY, K., SAWAN, M., “A New Digital Background Calibration Technique for Pipelined ADC”, IEEE-ISCAS, Vancouver, May 23-26, 2004, vol. 1, pp. 5-8.

[205] DJEMOUAI, A., SAWAN, M., “New CMOS Current-Mode ASK DemodulatorDedicated for Implantable ElectronicDevices”, IEEE-ISCAS, Vancouver, May 23-26, 2004, vol.1, pp. 441-444.

[204] GOSSELIN, B., SIMARD, V., SAWAN, M., “An Ultra Low-Power Chopper Stabilized Front-End for Multichannel Cortical SignalsRecording”, IEEE-CCECE, Niagara, May 2-5, 2004, vol. 4, pp. 2259-2262.

[203] DJEMOUAI, A., SAWAN, M., “Integrated ASK DemodulatedDedicated to Implantable ElectronicDevices”, IEEE-MWSCAS, Cairo, Egypt, December 27-30, 2003, vol. 1 pp. 80-83.

[202] EL-SANKARY, K., SAWAN, M., “A Digital Blind Background CapacitorMismatch Calibration for Pipelined ADC”, IEEE-MWSCAS, Cairo, Egypt, December 27-30, 2003, vol. 1 pp. 507-510.

[201] EL-SANKARY, K., SAWAN, M., “Background capacitormismatch calibration for pipelined ADC”, IEEE-MWSCAS, Cairo, Egypte, December 27-30, 2003 vol. 1, pp. 164-167.

[200] DJEBBI, M., ASSI, A., SAWAN, M., “High-Frequency Offset-Compensated CMOS Current-Feedback Operational Amplifier”, IEEE-MWSCAS, Caire, Egypt, December 27-30, 2003, vol. 1 pp. 193-196.

[199] Mokhtari, E., SAWAN, M., “CMOS High-Resolution All-Digital Phase-Locked Loop”, IEEE-MWSCAS, Caire, Egypt, December 27-30, 2003, vol. 1 pp. 221-224.

[198] MARSOLAIS, A., EL-GAMAL, M., SAWAN, M., “A CMOS FrequencySynthesizerCovering the Lower and Upper Bands of 5GHz WLANs”, IEEE-MWSCAS, Cairo, Egypt, December 27-30, 2003, vol. 3, pp. 1146-1149.

[197] HU, Y., SAWAN, M., EL-GAMAL, M., “A Power RecoveryStrategyDedicated to Implantable Applications”, IEEE-ICECS, Sharjah, United ArabEmirates, December 14-17, 2003, vol. 3 pp. 1212-1215.

[196] ACHIGUI, H.F., FAYOMI, C.J.-B., SAWAN, M., “A DTMOS-Based 1 V OPAMP”, IEEE-ICECS, Sharjah, United ArabEmirates, December 14-17, 2003, vol. 1 pp. 252-255.

[195] HARB, A., SAWAN, M., “A SC Rectification and BIN-Integration Circuits for Nerve Signal Processing: ExperimentalResults”, IEEE-ICECS, Sharjah, United ArabEmirates, December 14-17, 2003, vol. 1 pp. 264-267.

[194] KASSEM, A., SAWAN, M., “Efficient Pipelined Architecture of an Ultrasonic Digital Beamforming Interface”, MicronetAnnual Workshop, Ottawa, Canada-, September 30 – October 1, 2003, pp. 31-32.

[193] BA, A., SAWAN, M., “Multi-waveformsgeneratordedicated to selective and continuous stimulations of the bladder”, IEEE-EMBS, Cancun, Mexique, September 17-21, 2003, vol. 2, pp. 1569-1572.

[192] AWADA, A., SAWAN, M., BELLEMARE, F., “Electromyogramrecording of the Diaphragm: Modeling, Simulation and ExperimentalComparison, IEEE-EMBS, Cancun, Mexique, September 17-21, 2003, vol. 1, pp. 443-446.

[191] Kassem, A., Wang, J., Khouas, A., Sawan, M., Boukadom, M., “PipelinedSampled-Delay Focusing CMOS Implementation for Ultrasonic Digital Beamforming, IEEE-IWSOC, Calgary, 2003, pp. 247-250.

[190] Coulombe, J., Buffoni, L.-X., Carniguian, S., Gervais, J.F., Sawan, M.,” Intra-cortical visual stimulation system: design and optimization”, IFESS, Australia, June 2003, pp. 151-154.

[189] El-Sankary, K., Assi, A. and Sawan, M., DigitallyOriented Channel RandomSampling Method for Parallel Time InterleavedADCs”, IEEE-NewCAS, Montreal, June 18-20, 2003, pp. 145-148.

[188] Lu, Z., Hu, Y. and Sawan, M., “A 900 mV MASH Fourth-order Sigma-Delta ModulatorBased on Switched-Opamp Technique”, IEEE-NewCAS, Montreal, June 18-20, 2003, pp. 153-156.

[187] Hu, Y., Lu, Z. and Sawan, M., “A Low-Voltage 38µW Sigma-Delta ModulatorDedicated to Wireless Signal Recording Applications”, IEEE-ISCAS, Bangkok, May 25-28, 2003, Vol. 1, pp. 1073-1076.

[186] Hu, Y., Sawan, M., “A 900 mV 25µW High PSRR CMOS Voltage Reference Dedicated to Implantable Micro-Devices”, IEEE-ISCAS, Bangkok, May 25-28, 2003, Vol. 1 pp. 373-376.

[185] El-Sankary, K., Assi, A. and Sawan, M., “New Sampling Method to Improvethe SFDR Of Time-InterleavedADCs”, IEEE-ISCAS, Bangkok, May 25-28 2003, Vol. 1, pp. 833-836.

[184] Coulombe, J., Gervais, J.-F., Sawan, M., “A Cortical Stimulatorwith Monitoring Capabilitiesusing a Novel 1 Mbps ASK Data Link”, IEEE-ISCAS, Bangkok, May 25-28, 2003, Vol. 5, pp. 53-56.

[183] Carniguian, S., Coulombe, J., Sawan, M., “New Scanning Technique for the Power Management of Pixel Array”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 2, pp. 1395-1398.

[182] Buffoni, L.X., Coulombe, J., Sawan, M., “An Image Processing System Dedicated to Cortical Visual Stimulators”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 3, pp. 1497-1500.

[181] Ba, A., Sawan, M., “Integrated Programmable Neurostimulators to Recuperate the BladderFunctions”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 1, pp. 147-150.

[180] Hu, Y. and Sawan, M., “A Low-Power 900 mV Rail-to-Rail Class-AB Operational Amplifier”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 1, pp. 171-174.

[179] Gosselin, B., Simard, V. and Sawan, M., “Low Power Programmable Front-End for a Multichannel Neural Recording Interface”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 2, pp. 911-914.

[178] Trépanier, J.-L., Sawan, M. and Audet, Y., “A New CMOS Architecture for Wide Dynamic Range Image Sensing”, IEEE-CCECE, Montréal, May 4-7, 2003, Vol. 1, pp. 323-326.

[177] Pigeon, S., Meunier, M., Sawan, M., Martel, S., “Design and Fabrication of a MicroelectrodeArrayDedicated for Cortical Electrical Stimulation”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 2, pp. 813-816.

[176] Gervais, J.F., Coulombe, J., Mounaim, F., Sawan, M., “Bidirectional High Data Rate Transmission Interface for InductivelyPoweredDevices”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol.1, pp. 167-170.

[175] Py, J.S., Gilson, M., Sawan, M., Brault, JJ., “Simulation de Grands Réseaux de Neurones par Neuron“, IEEE-CCECE, Montreal, May 4-7 2003, Vol. 3, pp. 1865-1868.

[174] Gilson, M., Py, J.S., Brault, J.J., Sawan, M., “Training RecurrentPulsed Networks by Genetic and TabooMethods”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 3, pp. 1857-1860.

[173] Chouchane, T., Sawan, M., “A 5 GHz CMOS RF Mixer IN 0.18mm CMOS Technology” IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 3, pp. 1905-1908.

[172] Djebbi, M., Assi, A. and Sawan, M., “An Offset-Compensated Wide-Bandwidth CMOS Current Feedback Operational Amplifier”, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 1, pp. 73-76.

[171] Kassem, A., Sawan, M., Boukadoum, M., “A Scan Conversion CMOS Implementation for a Portable Ultrasonic System, IEEE-CCECE, Montreal, May 4-7, 2003, Vol. 3, pp. 1461-1464.

[170] Awada, A., Dido, J., Sawan, M., Bellemare, F., “A Comparative Study of EMGdiRecordingElectrodes”, IEEE-CCECE, Montréal, May 4-7, 2003, Vol. 3, pp. 1501-1504.

[169] KASSEM, A., WANG, J., KHOUAS, A., SAWAN, M., TABIKH, S., BOUKADOUM, M., “Variable Delay CMOS Implementation for UltrasonicBeamforming”, 14th IEEE-ICM, Beirut, December 11-13, 2002, pp. 127-130.

[168] EL-SANKARY, K., KASSEM, A., CHEBLI, R., SAWAN, M., “Low-Power, Low Voltage, 10-BIT-50MSPS Pipeline ADC Dedicated for Front-End UltrasonicReceivers”, 14th IEEE-ICM, Beirut, December 11-13, 2002, pp. 219-222.

[167] EL-SANKARY, K., ASSI, A., SAWAN, M., “A New Time-Interleaved Architecture for High-Speed A/D Converters”, IEEE-IWDCV, Florida, USA,November 14-15, 2002, pp. 93-99.

[166] HU, Y., GERVAIS, J.F.,SAWAN, M., “High Power Efficiency Inductive Link with Full-Duplex Data Communication “, IEEE-ICECS, Dubrovnik, September 15-18, 2002, Vol. 1, pp. 359-362.

[165] HARB, A., SAWAN, M.,”Low Power BIN IntegratorDedicated to Neural Signal Processing”, IEEE-ICECS, Dubrovnik, September 15-18, 2002, Vol. 1, pp. 37-40.

[164] COULOMBE, J., BUFFONI, L.-X., SAWAN, M., “A Mixed-Signal IC for Multiple Cortical Stimulation Strategies”, IEEE-MWSCAS, Tulsa, August 4-7, 2002, Vol. 2, pp. 250-253.

[163] Trépanier, J.L., Sawan, M., Audet, Y., Coulombe, J., “A Wide Dynamic Range CMOS Digital Pixel Sensor”, IEEE-MWSCAS, Tulsa, August 4-7, 2002, Vol. 2, pp. 437-440.

[162] HASHEMI, S.,SAWAN, M.,SAVARIA, Y.,“Analysis of Power Chains in TranscutaneouslyPoweredElectronic Implants”, IFESS, Ljubljana, May 24, 2002, pp. 196-198.

[161] BA, A., SCHNEIDER, E.,ABDEL-KARIM, A.,SAWAN, M., ELHILALI M.,New Implantable Stimulator for Rehabilitation of the BladderFunctions”, IFESS, Ljubljana, May 24, 2002, pp. 1-3.

[160] FOUZAR, Y., SAVARIA, Y., SAWAN, M.,“A CMOS Phase-Locked Loop with an Auto-calibrated VCO”, IEEE-ISCAS, Scottsdale, Arizona, May 26-29, 2002, Vol. 3, pp. 177-180.

[159] CHEBLI, R., KASSEM, A., SAWAN, M.,“Logarithmic Programmable PreamplifierDedicated to UltrasonicReceivers”, IEEE-ISCAS,Scottsdale, Arizona, May 26-29, 2002, Vol. 1, pp. 673-676.

[158] EL-HALLABI, H.,SAWAN, M.,High Frequency and High Q CMOS GM-C BandpassFilterwithAutomatic on-Chip Tuning”, 13th Int. Conf. onMicroelectronics,Rabat, Morocco, October 29-31, 2001, pp.169-172.

[157] SCHNEIDER, E.,ABDEL-KARIM, A.,SAWAN, M., ELHILALI M.,New Stimulation Strategy to Improve the BladderFunction in Paraplegics: ChronicExperiments in Dogs”, IEEE-EMBS, Istanboul, October 25-28, 2001, Vol. 2, pp. 1305-1308.

[156] DELAGE, J.F., SAWAN, M., “Lead Compensation to Improve the Stability of a Two Stage Rail-to-Rail CMOS Opamp”, IEEE-ICECS, Malta, September 2-5, 2001, Vol. 2, pp. 561-564.

[155] ELHALLABI, H., FOUZAR, Y., SAWAN, M., “High Frequency CMOS GM-C BandpassFilterwithAutomatic On-Chip Tuning”, IEEE-ICECS, Malta, September 2-5, 2001, Vol. 2, pp. 823-826.

[154] CHEBLI, R., KASSEM, A., SAWAN, M.,“Integrated Front-End PreamplifierDedicated to UltrasonicReceivers”, IEEE-ICECS,Malta, September 2-5, 2001, Vol. 3, pp. 1103-1106.

[153] HU, Y.,SAWAN, M.,“Low Noise Front-End Amplifier Dedicated to Monitor VeryLow Amplitude Signal from Implantable Sensors”, IEEE-IFESS, Cleveland, June 17-20, 2001, pp. 1-2

[152] JECKLEN, E.G., GHANNOUCHI, F.M., SAWAN, M., BEAUREGARD, F., “Efficient Baseband/RF FeedforwardLinearizerthrough a Mirror Power Amplifier Using Software-Defined Radio and Quadrature Digital Up-Conversion, IEEE-MTTS, August 6-10, 2001, Vol. 2, pp. 789-792.

[151] DJEMOUAI, A.,SAWAN, M.,“Fast-LockingLow-Jitter Integrated CMOS Phase-Locked Loop”, IEEE-ISCAS, Sydney, Australia, May 6-9, 2001, Vol. 1, pp. 264-267.

[150] FAYOMI, C., ROBERTS, G., SAWAN, M.,“A 1-V, 10-bit, Rail-to-Rail Successive Approximation ADC in Standard 0.18 µm CMOS Technology”, IEEE-ISCAS, Sydney, Australia, May 6-9, 2001, Vol. 1, pp. 460-463.

[149] FOUZAR, Y., SAVARIA, Y., SAWAN, M.,“A New Controlled Loop Gain Phase-Locked Loop Technique”, IEEE-ISCAS, Sydney, Australia, May 6-9, 2001, Vol. 4, pp. 810-813.

[148] FAYOMI, C.,SAWAN, M.,ROBERTS, G.W., “A Design Strategy for a 1-V Rail-to-Rail Input/Output CMOS Opamp”, IEEE-ISCAS, Sydney, Australia, May 6-9, 2001, Vol. 1, pp. 639-642.

[147] Abdel-Karim, A., Schneider, E., Abdel-Gawad, M., Sawan, M., Elhilali, M., “New TreatmentStrategy to ImproveBladderFunction in Paraplegics”, AQFIM, Montreal, May 2001.

[146] FOUZAR, A., SAWAN, M., SAVARIA, Y., “Very Short Locking Time PLL Based on Controlled Gain Technique”, IEEE-ICECS, Kaslik, December 17-20, 2000, Vol. I pp. 252-255.

[145] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “New CMOS Integrated Pulse WidthModulator for Voltage Conversion Applications”, IEEE-ICECS, Kaslik, December 17-20, 2000, Vol. 1, pp. 116-119.

[144] JECKLEN, E.G., GHANNOUCHI, F.M., SAWAN, M., BEAUREGARD, F., “Amplifier’sPredistortion-BasedLinearizers for broadband applications”, IEEE-ICECS, Kaslik, December 17-20, 2000, Vol. 1, pp. 482-485.

[143] HARB, A., SAWAN, M., “Low-Power CMOS Implantable Nerve Signal AnalogProcessing Circuit”, IEEE-ICECS, Kaslik, December 17-20, 2000, Vol. 2, pp. 911-914.

[142] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “Short locking time FLL and PLL based on a DLL technique”, IEEE-MWSCAS, Detroit, August 8-11, 2000, Vol. 2, pp. 952-955.

[141] HU, Y., SAWAN, M., “CMOS Front-end Amplifier Dedicated to Monitor VeryLow Amplitude Signal from Implantable Sensors”, IEEE-MWSCAS, Detroit, August 8-11, 2000, Vol. 1, pp. 298-301.

[140] FAYOMI, C., SAWAN, M., ROBERTS, G., “Low-Voltage CMOS Analog Switch for High PrecisionSample-and-Hold Circuit”, IEEE-MWSCAS, Detroit, August 8-11, 2000, Vol. 2, pp. 710-713.

[139] FOUZAR, Y., SAWAN, M., SAVARIA, Y., “CMOS Wide-Swing Differential VCO for Fully Integrated Fast PLL”, IEEE-MWSCAS, Detroit, August 8-11, 2000, Vol. 2, pp. 948-950.

[138] DONFACK, D., SAWAN, M., SAVARIA, Y., “Techniques de caractérisation de l’interface electrode-tissus”, 2nd Symposium on Advanced Biomaterials (ISAB), Montréal, June 28-July 1, 2000.

[137] SCHNEIDER, E., SAWAN, M., ALKHALILI, A., “Microstimulateur électronique implantable dédié à la récupération de fonctions urinaires”, 2nd ISAB, Montréal, June 28 – July 1, 2000.

[136] HARB, A., SAWAN, M., “Système d’acquisition des signaux nerveux dédié au contrôle de microstimulateurs implantables”, 2nd ISAB, Montréal, June 28-July 1, 2000.

[135] SCHNEIDER, E., SAWAN, M., BOYER, S., ABDELKARIM, A, ELHILALI, M.M., “Sphincter contraction inhibition and detrusorhyperreflexiapreventionusingselective stimulation: ChronicExperiments in Dogs”, IFESS, Denmark, June 2000.

[134] DONFACK, C., SAWAN, M., SAVARIA, Y., “Fullyintegrated AC impedancemeasurement technique for implantable electrical stimulation application”, IFESS, Denmark, June 2000.

[133] VOGHELL, J.-C., SAWAN, M., “A CurrenttuneableFullyDifferentialTransconductorDedicated for Filtering Applications”, IEEE-ISCAS,Genève, May 2000, Vol. 5, pp. 165-168.

[132] COULOMBE, J., SAWAN, M., WANG, C., “Variable resolution CMOS current mode active pixel sensor”, IEEE-ISCAS,Genève, May 28-31, 2000, Vol. 2, pp. 293-296.

[131] FAYOMI, C., ROBERTS, G., SAWAN, M., “Low power/Low Voltage high speed CMOS differential rack and latchcomparatorwith rail-to-rail input”, IEEE-ISCAS, Genève, May 28-31, 2000, Vol. 5, pp. 653-656.

[130] FOUZAR, Y., SAWAN, M., SAVARIA, Y., “A new fullyintegrated CMOS phase-lockedloopwithlowjitter and fast lock time”, IEEE-ISCAS,Genève, May 28-31, 2000, Vol. 2 pp. 253-256.

[129] JECKELN, E.G., BEAUREGARD, F., SAWAN, M., GHANNOUCHI, F.M., “Adaptive baseband/RF predistorter for power amplifiersthroughinstantaneous AM-AM and AM-PM Characterizationusing Digital Receivers”, IEEE-MTTS, May 19-23, 2000, Vol. 1, pp. 489-492.

[128] VOGHELL, J.-C., SAWAN, M., “A CurrentTuneableFullyDifferentialTransconductorDedicated for filtering applications”, Int. Conf. onMicroelectronics, Kuwait, November 22-24, 1999, pp. 221-224.

[127] HARB, A., HU, Y., SAWAN, M., “New CMOS Instrumentation Amplifier Dedicated to VeryLow-Amplitude Signal Applications”, IEEE-ICECS, Chypre, September 5-8, 1999, Vol. 1, pp. 517-520.

[126] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “New Circuit Techniques Based on a High-Performance Frequency to Voltage Convert”, IEEE-ICECS, Chypre, September 5-8, 1999, Vol. 1, pp. 13-16.

[125] RABEL, C.-E., SAWAN, M., “New Custom Computing Machine Dedicated to FastDynamic Configuration Application”, IEEE-ICECS, Cypress, September 5-8, 1999, Vol. 2, pp. 957-960.

[124] CRAMPON, M.-A., BRAILOVSKI, V., SAWAN, M., “Modeling of a new shape memory cuffelectrode”, 38th METCOM, Quebec, August 1999.

[123] BOYER, S., SAWAN, M., ABDEL-GAWAD, M., ELHILALI, M., “New Integrated MiniaturizedNeuromuscularStimulator to EnhanceBladderVoiding”, IFESS, Sandai, August 23-27, 1999.

[122] HARB, A., SAWAN, M., CRAMPON, M.-A., et al., “Monitoring BladderActivities in ParalysedDogs: System Design and Acute Experiments”, IFESS, Sandai, August 23-27, 1999.

[121] DONFACK, C., SAWAN, M., SAVARIA, Y., “Efficient Monitoring of Electrodes-Nerve Contacts During FNS of the Bladder”, IFESS, Sandai, August 23-27, 1999.

[120] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “ImprovedBiotelemetry System with an Integrated Automatic Control”, IFESS, Sandai, August 23-27, 1999.

[119] HARVEY, J.-F., ROY, M., SAWAN, M., “Visual Cortex Stimulation Prototype based on Mixed-Signal TechnologyDevices”, IFESS, Sandai, August 23-27, 1999.

[118] HARB, A., SAWAN, M., “New Low-Power Low-Voltage High-CMRR CMOS Instrumentation Amplifier”, IEEE-ISCAS, Orlando, May 30 June 2, 1999, vol. 6 pp. 97-100.

[117] RABEL, C.E., SAWAN, M., “PARC: A New Pyramidal FPGA Architecture Based on a Risc Processor”, IEEE-ISCAS, Orlando, May 30 – June 2, 1999, vol. 1 pp. 470-473.

[116] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “An Efficient RF Power Transfer and Bidirectional Data Transmission to Implantable ElectronicDevices”, IEEE-ISCAS, Orlando, USA, May 30-June 2, 1999, Vol. 2, pp. 259-262.

[115] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “A 200 MHz Frequency-Locked Loop Based on New Frequency-to-Voltage ConvertersApproach”, IEEE-ISCAS, Orlando, USA, May 20-June 2, 1999, Vol. 2, pp. 89-92.

[114] SAWAN, M., RABEL, C.E., “Dynamic Configuration Using a Pyramidal Architecture FPGA and a Built-In RISC Processor”, Int. Conf. onMicroelectronics, Monastir, Tunisie, December 14-16, 1998, pp. 17-20.

[113] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “High Performance Integrated CMOS Frequency-to-Voltage Converter “, Int. Conf. onMicroelectronics, Monastir, Tunisie, December 14-16, 1998, pp. 63-66.

[112] VOGHELL, J.-C., SAWAN, M., ROY, M., BOURRET, S., “Programmable Current Source Dedicated to Implantable Microstimulators”, Int. Conf. onMicroelectronics, Monastir, Tunisie, December 14-16, 1998, pp. 67-70.

[111] FOUZAR, Y., SAWAN, M., SAVARIA, Y., “A BiCMOS Wide-Lock Range Fully Integrated PLL”, Int. Conf. onMicroelectronics, Monastir, Tunisie, December 14-16, 1998, pp. 274-277.

[110] CRAMPON, M.-A., SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New Nerve CuffElectrodeBased on a Shape Memory Alloy Armature”, EMBS, Hong Kong, China, October 29 – November 1, 1998, vol.5, pp. 2556-2559.

[109] BEAUCHAMP-PARENT, A., SAWAN, M., “New Reconfigurable UltrasonicEnuresis Monitoring System”, EMBS, Hong Kong, China, October 29 –November 1, 1998, Vol. 2, pp. 789-792.

[108] CRAMPON, M.-A., SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New Easy to Install Nerve ElectrodeUsing Shape Memory Alloy Armature”, 6th Int. W. on FunctionalElectrical Stimulation, Vienna, September 22-24, 1998, pp. 69-72.

[107] SAWAN, M., DONFACK, C., SCHNEIDER, E., BOYER, S., ROY, M., “Externally-Powered Implantable DeviceDedicated to Monitor FES Eventsfrom Sacral Nerves”, 4th Int. Neuromodulation Society, Lucerne, Suisse, September 16-20, 1998.

[106] BOYER, S., SAWAN, M. et al., “Selective Neural Stimulation to ImproveBladdervoiding:  ChronicExperiments in Dogs”, 4th Int. Neuromodulation Society, Lucerne, Suisse, September 16-20, 1998.

[105] HARB, A., SAWAN, M., “New Low-Noise, Low-Voltage Instrumentation Amplifier Dedicated to Nerve Signal Recording “, MediterraneanConf. on Med. andBiol Eng. and Comput. (Medicon),Cyprus, June 1-17, 1998.

[104] SAWAN, M., ROBIN, S., BOURRET, S., BOYER, S., “A Miniaturized Implantable BladderSelectiveElectricalStimulator”, Medicon, Cyprus, June 14-17, 1998.

[103] RABEL, C.E., SAWAN, M., “New Risc Processor Dedicated to FastDynamic Configuration Systems”, FPD, Montreal, Canada, June 8-9, 1998, pp. 49-54.

[102] HARVEY, J.-F., VAILLANCOURT, P., SAWAN, M., “Prototyping for an Implantable Visual StimulatorUsing FPGA”, FPD, Montreal, Canada, June 8-9, 1998, pp. 55-58.

[101] BOYER, S., SAWAN, M., “High Performance Portable Stimuli GeneratorBased on a MicroprocessorDriving an FPGA”, FPD, Montreal, Canada, June 8-9, 1998, pp. 104-107.

[100] SHADITALAB, M., BOIS, G., SAWAN, M., “Self Sorting 1024-point FFT on Re-configurableAccelerationSubsystemwith DSP Processor”, FPD, Montreal, Canada, June 7-10, 1998, pp. 125-130

[99] BRAIS, L.-P., SAWAN, M. “Adaptive FilteringUsing Field Programmable Devices”, FPD, Montreal, Canada, June 8-9, 1998, pp. 136-140.

[98] SAVARIA, Y., EL-HASSAN, F., KHALI, H., SAWAN, M., “An Effective Hardware/Software Implementation of a VITERBI DecoderUsing an FPGA-Based Reconfigurable Computing Platform”, FPD, Montreal, Canada, June 8-9, 1998, pp.161-165.

[97] CRAMPON, M.-A., SAWAN, M., “Implementation in a FPGA of a Programmable Stimuli GeneratorUsing a One-bit Sigma-Delta DAC”, FPD, Montreal, Canada, June 8-9, 1998, pp. 187-190.

[96] HARVEY, J.-F., SAWAN, M., “ExperimentalWorkUsingSelectedFPDs in Undergraduate Engineering Education” FPD,Montreal, Canada, June 8-9, 1998, pp. 191-194.

[95] JECKELN, E., GHANNOUCHI, F., SAWAN, M., “An L Band Adaptive Digital Predistorter for Power Amplifiersusing Direct I-Q Modem”, IEEE-MTTS, June 1998, Vol. 2, pp. 719-722.

[94] SHADITALAB, M., BOIS, G., SAWAN, M. “Self Sorting Radix-2 FFT on FPGA’susingParallelPipelinedDistributedArithmetic blocks”, IEEE-FCCM, April 15-17, 1998, pp. 337-338.

[93] OUICI, K., SAWAN, M., “Low-Power High-Gain Operational Amplifier Dedicated to Implantable Sensors”, IEEE-ICECS, Caire, Egypte, December 15-18, 1997, pp.1486-1489.

[92] ASSI, A., SAWAN, M., “VHF BandpassTunableFilter Design Using CMOS Wideband Transconductance-BasedTransresistance Amplifier”, IEEE-ICECS, Caire, Égypte, December 15-18, 1997, pp. 1184-1188.

[91] BOURRET S., SAWAN, M., PLAMONDON, R., “Programmable High-Amplitude Balanced Stimulus Current-Source for Implantable Microstimulators”, IEEE-EMBS, Chicago, October 30 –November 2, 1997, vol. 5, pp. 1938-1941.

[90] VAILLANCOURT, P., DJEMOUAI, A., HARVEY, J.F., SAWAN, M., “EM Radiation BehavioruponBiological Tissues in a Radio-Frequency Power Transfer Link for a Cortical Visual Implant”, IEEE-EMBS, Chicago, October 30-November 2, 1997, Vol. 6, pp. 2499-2502.

[89] ROBIN, S., SAWAN, M., HARVEY, J.F., ABDEL-G., M., ABDEL-B., T.M., ELHILALI, M.M., “A New Implantable Micro stimulatorDedicated to Selective Stimulation of the Bladder”, IEEE-EMBS, Chicago, October 30 – November 2, 1997, Vol. 4, pp. 1792-1795.

[88] RABEL, C.E., SAWAN, M., DAVIDSON, J., “PARC: A New Pyramidal-Architecture FPGA”, Int. Conf. onMicroelectronics (ICM), Bandung, Indonesia, October 8-10, 1997.

[87] SAWAN, M., ROBIN, S., “Implantable Neural CuffElectrodes”, 1st Int. Symp. on Advanced Biomaterials (ISAB), Montreal, October 2-5, 1997.

[86] BOURRET, S., SAWAN, M., PLAMONDON, R., “Source de courant dédiée à la stimulation neuromusculaire fonctionnelle”, 1st ISAB,Montreal, October 2-5, 1997.

[85] HARVEY, J.-F., VAILLANCOURT, P., SAWAN, M., “Image Acquisition and ReductionDedicated to a Visual Implant”, 1st ISAB,Montreal, October 2-5, 1997.

[84] VAILLANCOURT, P., HARVEY, J.-F., SAWAN, M., “Energy Transmission for aHuman Cortical Visual Implant”, 1st ISAB,Montreal, October 2-5, 1997.

[83] ROBIN, S., SAWAN, M., “Micro-stimulateur implantable dédié à la stimulation sélective”, 1st ISAB,Montreal, October 2-5, 1997.

[82] HARB, A., SAWAN, M., PROVOST, B., “Capteur implantable dédié à la mesure du volume vésical”, 1st ISAB,Montreal, October 2-5, 1997.

[81] JECKELN, E.G., GHANNOUCHI, F.M., SAWAN, M., “Linearization of MicrowaveEmittersUsing an Adaptive Digital Predistorter”, 27thEuropeanMicrowaveConf.,Jerusalem, September 8-12, 1997, pp. 336-340.

[80] SAWAN, M., ROBIN, S., “Implantable ElectricalStimulator Design UsingVariousSynthesis Tools”, IEEE-ICCS, Beirut, Liban, September 1-4, 1997, pp. 179-183.

[79] ASSI, A., SAWAN, M., “Design and Simulation of High-Performance Building Blocks UsingAnalogArtistfrom Cadence”, IEEE-ICCS, Beirut, Liban, September 1-4, 1997, pp. 192-197.

[78] ASSI, A., SAWAN, M., RAUT, R., “A FullyDifferential and Tunable CMOS Current Mode OpampBased on Transimpedance-Transconductance Technique”, IEEE-MWSCAS, August 3-6, 1997, Vol. 1 pp. 168-171.

[77] ROBIN, S., SAWAN, M., ELHILALI, M.M., “A New Implantable System for Neural Selective Stimulation of the Bladder”, IEEE-IFESS, Vancouver, August 16-21, 1997, pp. 223-226.

[76] DJEMOUAI, A., VAILLANCOURT, P., SAWAN, M., SLAMANI, M., “Performance Optimization of a Radio-FrequencyCoupling Technique”, IEEE-IFESS, Vancouver, August 16-21, 1997, pp. 227-230.

[75] ASSI, A., SAWAN, M., RAUT, R., “A New CMOS TunableTransconductorDedicated to VHF Continuous-Time Filters”, GLS on VLSI, Maggiore, Italy, March 11-13, 1997, pp. 143-148.

[74] ASSI, A., SAWAN, M., RAUT, R., “A New Voltage to CurrentTransducer for Analog IC Applications”, IEEEICM, Cairo, December 16-18, 1996.

[73] ASSI, A., SAWAN, M., “High LevelSynthesis of Communication Protocolswith a VHDL BasedModelingMethodology”, ICM, Cairo, December 16-18, 1996.

[72] HARVEY, J.F., SAWAN, M., “Image Acquisition and ReductionDedicated to a Visual Implant”, IEEE-EMBS 18th Int. Conf., Amsterdam, October 31-November 3, 1996, Vol. 1, pp.403-404.

[71] ROBIN, S., TU, L.M., ARABI, K., SHAKER, H., SAWAN, M., ELHILALI, M.M., “A New FES System Dedicated to Selective Stimulation: Acute Studies in Dogs”, 18th IEEE-EMBS Conf., Amsterdam, October 31-November 3, 1996, Vol. 1, pp. 424-425.

[70] SAWAN, M., ROBIN, S., PROVOST, B., EID, Y., ARABI, K., “A Wireless Implantable ElectricalStimulatorBased on TwoFPGAs”, IEEE-ICECS, Greece, October 13-16, 1996, Vol. 2, pp. 1092-1095.

[69] RAHAL, A., BOSISIO, R.G., SAWAN, M., ROGERS, C., OVEY, J., «Multi-stack quantum barriervaractorfrequencytriplers, an efficient way for MM-wave power generation», Symposium on AntennaTechnology and AppliedElectromagnetics, Montréal, Canada, August 6-9, 1996, pp. 623-626.

[68] HARB, H., SAWAN, M., HAROUN, B., “A High ResolutionTwo-Stage S-D ADC Based on a New Calibration Method”, IEEE-MWSCAS, Iowa, USA, August 18-21, 1996, Vol. 1, pp. 223-225.

[67] JECKELN, E.G., GHANNOUCHI, F.M., SAWAN, M., “Adaptive Digital Predistorter for Power Amplifierswith Real Time Modeling of MemorylessComplex Gains”, IEEE-MTT-S, San Francisco, USA, June 17-21, 1996, Vol. 2, pp. 835-838.

[66] MALLETTE, S., SAWAN, M., FORTIER, P.A., “Implementation of a Multichannel PC-Controlled Stimulus Generator”, 4th Canadian Workshop on Field Prog. Devices (FPD’96), Toronto, Canada, May 13-14, 1996, pp. 25-30.

[65] RABEL, C.E., SAWAN, M., DAVIDSON, J., “FuzzyLogic Processor”, 4th Canadian Workshop on Field Prog. Devices (FPD’96), Toronto, Canada, May 13-14, 1996, pp. 31-34.

[64] MOUNIER, S., SAWAN, M., “A HammingDecoder for Single ErrorDetection and Correction”, 4th Canadian Workshop on Field Prog. Devices FPD’96, Toronto, Canada, May 13-14 ,1996, pp. 119-122.

[63] ROBIN, M., SAWAN, M., “A Hand-Held Controller Dedicated to Implantable Stimulators”, 4th Canadian Workshop on Field Prog. Devices FPD’96, Toronto, Canada, May 13-14, 1996, pp. 124-128.

[62] PROVOST, B., SAWAN, M., “Implantable Bladder Volume Monitoring ElectronicDevice”, IFESS’96, Cleveland, Ohio, USA, May 3-5, 1996.

[61] ST-AMAND, R., SAWAN, M., SAVARIA, Y., “Design Optimization of a Current Source for Microstimulator Applications”, ICECS’95, December 17-21, 1995, pp. 129-132.

[60] ARABI, K., SAWAN, M., “VLSI Implementation of a New Communication Protocol for ExternallyControlledImplantedDevices”, ICM’95, Malaisie, December 1995.

[59] FAYOMI, C.J.B., SAWAN, M., BENNIS, S., “ParallelImplementation of Information FilterwithUnknown Noise Statistics”, ICM’95, Malaisie, December 1995.

[58] ARABI, K., SAWAN, M., “A MonolithicMiniaturized Programmable Implant for Neuromuscular Stimulation”, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, Vol. 2, pp. 1131-1132.

[57] ARABI, K., SAWAN, M., “A Novel CMOS Digital Clock and Data Decoder for ImplantedSystems”, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, Vol. 2 pp. 1663-1664.

[56] ARABI, K., SAWAN, M., “A Secure Communication Protocol for ExternallyControlled Implantable Devices”, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, Vol. 2, pp. 1661-1662.

[55] ARABI, K., SAWAN, M., “Multiprogrammable Stimulus WaveformGenerator for NeuromuscularElectrical Stimulation”, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, pp. 1111-1112.

[54] PROVOST, B., SAWAN, M., “A New Implantable TomographyApproach to Bladder Volume Monitoring”, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, Vol. 2 pp. 1641-1642.

[53] MALLETTE, S., SAWAN, M., FORTIER, P.A., “A New Multichannel PC-ControlledStimulatorDeveloped for PrimaryMotor Cortex Investigations”, 17th IEEE-EMBS Conf., Montréal, Canada, September 20-23, 1995, Vol. 2 pp. 1113-1114.

[52] BOYER, A., SAWAN, M., “Stimuli GeneratorDedicated for an Implantable Visual Miniaturized “, IEEE-EMBS 17th Int. Conf., Montréal, Canada, September 20-23, 1995, vol. 2, pp. 1693-1694.

[51] BARADA, H.M., SAWAN, M., HASSOUNA, M., TU L.M., ELHILALI, M.M., “Sphincter Fatigue Strategy for Bladder Control:  PreliminaryChronicResults in an Animal Model, 17th IEEE-EMBS, Montréal, Canada, September 20-23, 1995, vol. 2, pp. 1129-1130.

[50] ZHU, J., FAYOMI C.J.B., SAWAN, M., “A New Current-Mode 2-bit PipelinedADC’sCell”, Montréal, CCGEI’95, Montreal, Canada, September 5-8, 1995, Vol. 1 pp. 218-220.

[49] FAYOMI, C.J.B., SAWAN, M., BENNIS, S., “Parallel VLSI Implementation of a New Simplified Architecture of KalmanFilter”, CCGEI’95, Montreal, Canada, September 5-8, 1995, vol. 1, pp. 117-119.

[48] JECKELN, E., GHANNOUCHI, F.M., SAWAN, M., “Adaptive digital predistortion technique for microwave power amplifiers”, CCGEI’95, Montreal, Canada, September 5-8, 1995, Vol. 2, pp. 738-740.

[47] FAYOMI, C., BENNIS, S., SAWAN, M., “Filtre information avec estimation des bruits de mesure et du processus”, Int. Conf. on SBMHS, Paris, September 1995.

[46] SAWAN, M., ARABI, K., PROVOST, B., “Implantable Tomography Technique and MiniaturizedStimulator for Total Bladder Control”, 5th Vienna Int. Workshop on FES, Vienna, Australia, August 17-19, 1995, pp. 217-220.

[45] ARABI, K., SAWAN, M., “A Programmable Flexible FunctionalElectricalStimulator System”, 5th Vienna Int. Workshop on FES, Vienna, Australia August 17-19, 1995, pp.161-164.

[44] ARABI, K., SAWAN, M., “A ForwardError Correction Technique for Controlled Implantable Systems”, 5th Vienna Int. Workshop on FES, Vienna, Australia, August 1995, pp.375-378

[43] BOSHINA, D., SAWAN, M., “FPGA Implementation of a Miniaturized Controller Dedicated to Implantable Stimulators”, 3th Canadian Workshop on Field Prog. Devices (FPD’95), Montréal, June 1995, pp. 19-24.

[42] PAGÉ, K., ARABI, K., SAWAN, M., “A Miniaturized Oscilloscope Digital Interface Implemented in a Single Actel FPGA”, FPD’95, Montréal, June 1995, pp. 168-172.

[41] PROVOST, B., MOUNSEF, E., SAWAN, M., “LCD ControllersDedicated for Digital Systems Design Purposes”, FPD’95, Montréal, May 1995, pp. 191-196.

[40] HARB, A., SAWAN, M., ZHU, J., “A Wireless CMOS Implantable Receiver for NeuromuscularMicrostimulators”, WESCANEX’95, Winnipeg, May 1995, Vol. 2, pp. 383-385.

[39] ZHU, J., SAWAN, M., ARABI, K., “An Offset Compensated CMOS Current-Feedback Operational-Amplifier”, Int. Symposium on Circuits and Systems, Seattle, May 1995, Vol. 3, pp. 1552-1555.

[38] BARADA, H., SAWAN, M., van der PUIJE, P.D., HASSOUNA, M., ELHILALI, M.M., “New CuffElectrodes for Efficient Peripheral Nerves Electrical Stimulation”, IEEE-ICECS, Caire, December 1994, pp. 876-880.

[37] ARABI, K., SAWAN, M. “A MultiprogrammableMicrostimulatorDedicated to BladderDysfunctions”, IEEE-EMBC, Baltimore, Maryland, USA, November 1994, Vol. 2, pp. 974-975.

[36] ST-AMAND, R., SAWAN, M., SAVARIA, Y., “Generation of BalancedBipolar Stimuli Based on Current Sources withoutCouplingCapacitor”, 16th IEEE-EMBC, Baltimore, USA, November 1994, Vol. 2, pp. 992-993.

[35] ARABI, K., SAWAN, M., “A New Implantable System for Neuromuscular Stimulation”, Int. Conf. onMicroelectronics, Istanboul, Turquie, September 1994, pp. 77-80.

[34] ST-AMAND, R., SAWAN, M., SAVARIA, Y., “Design Optimization of a Current Source for Microstimulator Applications”, 37th Midwest Symposium on CAS, Louisiane, USA, August 1994, Vol. 1, pp. 129-132.

[33] ARABI, K., SAWAN, M., “Design of a Multichannel Implantable NeuromuscularProsthesis”, Eng. Foundation, Ohio, July 1994.

[32] PROVOST, B., SAWAN, M., “Implementation on an FPGA of a Testable MiniaturizedEyedrop Monitor”, 2th Canadian Workshop on Field-Programmable Devices (FPD’94), Kingston, Canada, June 1994, p. 1.2.1-1.2.5.

[31] PROULX, D., SAWAN, M., “Improving Programmable NeuromuscularMicrostimulators Design Using FPGA Devices”, FPD’94, Kingston, Canada, June 1994, pp. 4.5.1-4.5.4.

[30] SAWAN, M., BARADA, H., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., “Design of New Implantable Neural CuffElectrodes”, 1stInt’lConf. onMedical, Physics and Biomedical Eng., Cyprus, May 1994, pp. 1-4.

[29] WEI, M., DUVAL, F., FONTAINE, R., MOUINE, J., SAWAN, M., ELHILALI M.M., HASSOUNA, M., “A DedicatedMicroprocessor for Urinary Incontinence Stimulator”, SESST, Ohio, USA, March 1994, pp. 535-539.

[28] SAWAN, M., “Design of a New MultichannelNeuromuscularMicrostimulator”, IEEE-Int. Conference on Microelectronics, Dhahran, Arabie Saoudite, December 1993, pp. 90-93.

[27] SAWAN, M., “Microelectronics and Biomedical Instrumentation”, IEEE-Int. Conference on Microelectronics, Dhahran, Arabie Saoudite, December 1993, pp. 325-328.

[26] BELABBES, N.-E., KAMINSKA, B., SAWAN, M., “The Use of SensitivityAnalysis in Analog Circuits Synthesis”, CCVLSI, Calgary, Canada, November 1993, pp. 4A-13-4A-18.

[25] HU, Y., SAWAN, M., BOIS, G., “SCSYN:  A New Environment for the Synthesis of Switched-CapacitorFilters”, CCVLSI, Calgary, Canada, November 1993, pp. 1B-13-1B-18.

[24] SAWAN, M., HASSOUNA, N., LI, J.S., DUVAL, F., ELHILALI, M.M., “Neural MultichannelElectrical Stimulation for Total BladderEvacuation”, IEEE-EMBS, 15th Int. Conf., San Diego, USA, October 1993, pp. 1259-1260.

[23] SAWAN, M., HASSOUNA, N., LI, J.S., DUVAL, F., ELHILALI, M.M., “A Multichannel Implant for Total BladderEvacuation”, Ljubljana FES Conference, Ljubljana, Slovenia, August 1993, pp. 53-56.

[22] SAWAN, M., DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., “A Transcutaneous Implantable Bladder Controller”, IEEE-EMBS, 14th Int. Conf., Paris, France, November 1992, pp. 1506-1507.

[21] SAWAN, M., DUVAL, F., LI, J.S., HASSOUNA M., ELHILALI, M.M., “An Implantable Bladder Micro stimulator: Preliminaryresults in dogs”, 4th Vienna Int. Workshop on FES, Vienne, Austria, September 1992, pp. 172-175.

[20] SAWAN, M., DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., “A New BladderStimulator: Hand-Held Controller and Miniaturized…”, Association Advancement of MedicalInstr., Anaheim, 1992, p. 76.

[19] POURMEHDI, S., MOUINE, J., SAWAN, M., LAJOIE, J., DUVAL, F., “Speech CodingBased on VectorQuantization for a Tactile Vocoderhearingdevice”, 12th IEEE-EMBS Int. Conf., Philadelphie, USA, November 1990, pp. 1230-1231.

[18] MOUINE, J., POURMEHDI, S., SAWAN, M., DUVAL, F., “A Computerized System for Communication Data to Implantable and Programmable Neurostimulators”, IEEE-CCECE, Ottawa, Canada, 1990, pp. 75.2.1-75.2.4.

[17] POURMEHDI, S., MOUINE, J., SAWAN, M., DUVAL, F., “Codage de la parole basé sur la quantification vectorielle pour une prothèse tactile”, IEEE-CCECE, Ottawa, Canada, September 1990, pp. 5.4.1 – 5.4.3.

[16] SAWAN, M., DUVAL, F., HASSOUNA, M., MOUINE, J., POURMEHDI, S., ELHILALI, M.M., “A TranscutaneousBladderDysfunctions Controller”, IASTED-ICCM, Teheran, Iran, July 1990, pp.364-367.

[15] LACHANCE, J., SAWAN, M., POURMEHDI, S., DUVAL, F., “A ComputerizedRemote Control for an ImplantedUrinaryProsthesis”, IEEE-CBMS, Chapel Hill, North Carolina, USA, June 1990, pp. 112-116.

[14] POURMEHDI, S., MOUINE, J., SAWAN, M., DUVAL, F., “Microcomputer-Based Tactile HearingProsthesis”, IEEE-CBMS, Chapel Hill, North Carolina, USA, June 1990, pp. 117-122.

[13] SAWAN, M., DUVAL, F., POURMEHDI, S., MOUINE, J., “A New MultichannelBladderStimulator”, IEEE-CBMS, Chapel Hill, North Carolina, USA, June 1990, pp. 190-196.

[12] POURMEHDI, S., MOUINE, J., SAWAN, M., DUVAL, F., “A Portable Real-Time Digital Speech Processor for a TenChannels”, IEEE Indus. Automation Conf. & Exhibition, Toronto, 1990, pp. 11.30-33.

[11] SAWAN, M., MOUINE, J., POURMEHDI, S., HASSOUNA, M., DUVAL, F., ELHILALI, M.M., “A New TranscutaneousFully Programmable Neural Stimulator”, ISMMMICRO, Montréal, Canada, May 1990, pp. 45-48.

[10] SAWAN, M., HASSOUNA, M., DUVAL, F., ELHILALI, M.M., MOUINE, J., et al., “A New ProstheticDevice for FullyBladder Control”, IEEE EMBS, 11th Int. Conf., Seattle, USA, November 1989, Vol. 5, pp. 1708-1709.

[9]   MOUINE, J., TALBOT, M.A., DUVAL, F., SAWAN, M., POURMEHDI, S., LACHANCE, J., LECLAIR, M., GENEST, M., “Un nouveau neurostimulateur à électrodes multiples A New 16 Channel Cochlear Implant”, IEEE-CCGEI, Montréal, Canada, September 1989, pp. 885-888.

[8]   POURMEHDI, S., DUVAL, F., MABILLEAU, P., SAWAN, M., MOUINE, J., et al. “Un système d’analyse en temps réel du signal de la parole pour une prothèse auditive”, IEEE- CCECE, Montréal, Canada, Septembre 1989, pp. 889-892.

[7]   SAWAN, M., POURMEHDI, S., MOUINE, J., LACHANCE, J., LECLAIR, M., et al. “Commande transcutanée par ordinateur d’un implant urologique multicanaux”, IEEE-CCECE, Montréal, Canada, September 1989, pp. 1015-1017.

[6]   SAWAN, M., DUVAL, F., MAILHOT, F., HASSOUNA, M., ELHILALI, M.M., “A New MultichannelUrinaryStimulator”, IMAC in Patient Care, Washington, USA, September 1989.

[5]   SAWAN, M., ABTAHI, R., DUVAL, F., MAILHOT, F., “A Programmable Neural Stimulation Signal Generator”, CCVLSI 88, Halifax, Canada, October 1988, pp. 238-245.

[4]   SAWAN, M., CHAMPOUX, Y., NICOLAS, J., “Conception d’un système de traitement numérique des signaux sonores transitoires de longue durée et de haut niveau”, 12e Congrès Intld’Acoustique, Toronto, Canada, 1986.

[3]   HÉTU, R., LAROCHE, C., SAWAN, M., NICOLAS, J., “The Development of a Computerized Noise Generator for the Study of the Effects of Impulse …”, 110thAcoustical Society of America Meeting, Tennessee, 1985.

[2]   SAWAN, M., LEMIRE, G., NICOLAS, J., “ComputerizedGeneration of Controlled Impulsive Noise”, Noise-Con., Ohio, USA, June 1985, pp. 107-112.

[1]   SAWAN, M., NICOLAS, J., LEMIRE, G., “Contrôle numérique des signaux impulsifs émis par un haut-parleur”, Canadian Acoustics Association Meeting, Québec, Canada, October 1984.

F. Articles courts et affiches évaluées par pairs

[114] RONG G., BIAN S., LIU X., SU Y., SAWAN M., “A Label-free Optical Biosensor for Onsite COVID-19 Detection”, IEEE-EMBC, Virtual, Montreal, 2020.

[113] MONTAZERI L., SAWAN M., “Optogenetic Approach to Retinal Vision Restoration for AMD Patients”, IEEE-EMBC, Virtual, Montreal, 2020.

[112] HASHEMI NOSHAR F, SAWAN M., “Neural Recording Implants and the Challenges Ahead”, IEEE-EMBC, Virtual, Montreal, 2020.

[111] GAGLIANO L., BOU ASSI E., NGUYEN D.K., SAWAN M.,“Classification of epileptic brain states based on bispectrm-extracted features”,Canadian League Against Epilepsy Annual Scientific Meeting (CLAE), Winnipeg, Canada, 2019.

[110] GAGLIANO L., BOU ASSI E., NGUYEN D.K., SAWAN M.,”Bispectrum analysis of iEEG: A new biomarker for seizure activity” International Conference on Technology and Analysis of Seizures, University Exeter, UK, 2019.

[109] GAGLIANO L., BOU ASSI E., NGUYEN D.K., SAWAN M.,”Comparing MLP and LSTM neural networks for seizure prediction based on bispectrum analysis”, Montreal Artificial Intelligence & Neuroscience (MAIN), Montreal, Canada, 2019.

[108] GAGLIANO L., BOU ASSI E., NGUYEN D.K., SAWAN M.,”Preictal iEEG classification by means of higher order spectra and recurrent neural networks”, INNOVE ACTION, University of Montreal Hospital Center, Montreal, QC, Canada, 2018.

[107] GAGLIANO L., BOU ASSI E., NGUYEN D.K., SAWAN M., “Seizure forecasting by means of bispectrum analysis in canine epilepsy”, Canadian League Against Epilepsy Scientific Meeting (CLAE), St. John’s, NL, Canada, 2018.

[106] ALI M., SHAWKEY H., ZEKRY A., Sawan, “Fully-Integrated FM-UWB Transmitter for WBAN Applications”, Poster, ReSMiQ Workshop, Montreal, Canada, January 2017.

[105] Gagliano L., Bou Assi E., Nguyen D.K., RIHANA S., Sawan M., “Bilateralpreictal signature of phase-amplitude coupling in canine epilepsy”, International Conference on Technology and Analysis of Seizures (ICTALS), Minneapolis, MN, USA, 2017.

[104] ALI M., SHAWKEY H., ZEKRY A., Sawan, “Fully-Integrated FM-UWB Transmitter for WBAN Applications”, Poster, ReSMiQ Workshop, Montreal, Canada, January 2017.

[103] SAHA S., LESAGE F., SAWAN M., “On-Chip Integrated Near Infra-RedSpectroscopy (NIRS) Module”. Poster, ReSMiQ Workshop, Montreal, Canada, January 2017.

[102] HASSAN A., SAVARIA Y., SAWAN M., “Feasibility of wireless power and data transmissions in harshenvironment applications”. Poster, ReSMiQ Workshop, Montreal, Canada, May 2017.

[101] MAGHSOUDLOO E., RESAEI M., SAWAN M., GOSSELIN B., “A High-Speed and Ultra Low- Power Subthreshold Signal LevelShifter”, Poster, ReSMiQ Workshop, Montreal, Canada, May 2017.

[100] HASSAN A., SAVARIA Y., SAWAN M., “Wireless Power and Data Transmissions in HarshEnvironment Applications”. Poster, FETCH, Montreal, Canada, January 2017.

[99]   ALI M., SHAWKEY H., ZEKRY A., Sawan, “FM-UWB Transmitter for Body Area Networks”, Poster, FETCH, Montreal, Canada, January 2017.

[98]   SAHA S., LESAGE F., SAWAN M., “On-Chip Zero Distance Source-Detector module for Near InfraredSpectroscopy (NIRS)”. Poster, FETCH, Montreal, Canada, January 2017.

[97]   Wuthibenjaphonchai N., Haruta M., Noda T., Sasagawa K., Tokuda T., Sawan M., Ohta J., “CMOS-Based Optical EnergyHarvesting Circuit for Medical and IoTDevices”, Poster, IEEE EMBC, Jeju, Korea, 2017.

[96]   HASSAN, A., TRIGUI A., ALI, M., HACHED S., SAVARIA Y., SAWAN M., “Stability of GaN150-Based HEMT in High Temperature Up to 400°C”, IEEE-NEWCAS, Poster, Strasbourg, France, June 2017.

[95]   YAN Z., MOHAMED A., WANG G., CUI D., SAWAN M., “Low-Noise 8-Channels Chopper-Stabilized EEG Acquisition System”, IEEE Neural Engineering Conference, Poster, Shanghai, China, May 2017.

[94]   ATEF A., MOHAMED A., ABBAS M., ELSAYED-ESAM K., CUI D., SAWAN M., WANG G., “Wide Dynamic Range Integrated Optical Receiver for Near InfraredSpectroscopy”, IEEE Neural Engineering Conference, Poster, Shanghai, China, May 2017.

[93]   TRIGUI, A., HASSAN, A., SAVARIA, Y., SAWAN, M., “Quadrature Carrier Width Modulation Demodulator for Micro-Implants”, ReSMiQ Workshop, Montreal, Canada, May 2016.

[92] LI, N., SAWAN, M., “A High-Efficiency Digital Signal Processing System Using Compressed Sensing Technique for Neural RecordingDevices”, ReSMiQ Workshop, Montreal, Canada, May 2016.

[91] FARTOUMI, S., SAWAN, M., EMERIAUD, G., “Real time diagnostic of cerebralstatus in traumaticbraininjuryusing neuro-fuzzy networks “, EuroneuroCongress, Barcelona, April 2016.

[90] BOUASSI, E., RIHANA, S., NGUYEN, D.K., SAWAN, M., “DimensionalityReduction in SeizurePredictionStudies”, AES, Pennsilvania, Dec 2015.

[89] PENG, K., NGUYEN, D.K., TAYAH, T., VANNASING, P., TREMPLAY, J., M. SAWAN, M., LESAGE, F., POULIOT, P., “Modelingchannel-specifichemodynamicresponsefunction in epilepsywith EEG-fNIRS data”, AES, Seattle, Dec 2014.

[88]    PENG, K., NGUYEN, D.K., LE LAN, J., DUPUY, O., KASSAB, A., FRASER, A., BHERER, L., M. SAWAN, M., LESAGE, F., POULIOT, P., “Modelingspecifichemodynamicresponsefunction in fNIRS”, fNIRS, Montreal, Sept 2014.

[87] DEHBOZORGI, M., POULIOT, P., SAWAN, M., “Robustpre-clinical software system for real time monitoring of NIRS and EEG”, fNIRS, Montreal, Sept 2014.

[86] ARFAOUI, N., POULIOT P., LE LAN, J., SIMARD, V., CHARLEBOIS-CLOUTIER, E., FRASER, A., BHERER, L., LESAGE, F., SAWAN, M., “Using ICA and accelerometers to remove motion artifacts in NIRS data acquired on movingsubjects”, fNIRS, Montreal, Sept. 2014.

[85] PENG, K., TAYAH, T., VANNASING, P., TREMBLAY, J., SAWAN, M., LESAGE, F., NGUYEN, D.K., POULIOT, P., “Sensitivity and specificity in continuousfNIRS-EEG: A spike-focusedstudy on 40 patients with focal epilepsy”, 30th International EpilepsyCongress, Montreal, 2013.

[84] KAMRANI, E., FOROUSHANI, A., VAZIRIPOUR, M., SAWAN, M., “Monitoring and Controlling of the Human Brain Dynamics”, 29th SouthernBiomedical Engineering Conference (SBEC), Miami, USA, May 3-5, 2013.

[83] KROUCHEV, N., HASANUZAMAN, M., GHANE-MOTLAGH, B., VINET, A., RAUT, R., SAWAN, M., “Centuries of functionalelectrical stimulation (FES) – lessonslearnedtoward biocompatible and efficient brainmicrostimulation “, 10e Journée scientifique, OEil, cerveau et vision du GRSV, Montréal, Quebec, March 2013.

[82] KAMRANI, E., LESAGE, F., SAWAN, M, “Fully Integrated Near Infra-RedPhotodetector for Real-time Wireless Brain Imaging”, Poster, MIOMD-XI: 11th International Conference on InfraredOptoelectronics-Materialsand Devices, Chicago, IL, USA, 4 – 8 September 2012.

[81] KAMRANI, E., LESAGE, F., SAWAN, M, “Design and Implementation of an IntegratedFunctional Near Infra-RedSpectroscopyPhotoreceiver for Real-Time BrainMonitoring”, Best Poster Award, ReSMiQ symposium onMicrosystems and networking, 80thACFAS conference, Montréal, May 7, 2012.

[80] KAMRANI, E., LESAGE, F., SAWAN, M, “Real-time Wireless Brain Imaging using aFully Integrated Phototransceiver”, Poster, Journée de larecherche, Ecole Polytechnique, Montréal, May 23-24, 2012.

[79] DESGENT, S., SANON, N., DUSS, S., BILODEAU, G.A., TARIQUS-SALAM, M., SAWAN, M, CARMANT, L., “Postnatal Stress AltersHyperthermicSeizure Patterns in a Dual Pathology Rat Model of Epileptogenesis”, American Epilepsy Meeting, Boston, Dec. 2011.

[78] NGUYEN, D., TARIQUS-SALAM, M., DESGENT, S., DUSS, S., CARMANT, L., BOUTHILLIER, A., SAWAN, M., “SubduralPorous and Notched Mini GridElectrodes for IntracranialElectroencephalographicRecordings”, American Epilepsy Meeting, Boston, Dec. 2011.

[77] TARIQUS-SALAM, M., HAMIÉ, A., NGUYEN, D., SAWAN, M.,“A Low Power Implantable Responsive Focal Drug Delivery System”,American Epilepsy Meeting, Boston, Dec. 2011.

[76] KESTENS, Y., GAUVIN, L., THERIAULT, M., BARNETT, T., DANIEL, M., A CHEVALIER, A., SAWAN, M., “People-Place Interactions and HealthyAging: Contributions of a NovelMultisensorDevice”, The 64thGerontologist Society of AmericaAnnual Scientific Meeting, Boston, USA, Nov. 2011.

[75] MILED, M.A., SAWAN, M., “Étude, modélisation et validation des microélectrodes pour des structures Lab sur puce”, ACFAS, May 2011.

[74] MILED, M.A., SAWAN, M., “Capteur implantable basé sur LSP dédié à la détection cellulaire par diélectrophorèse “, Fetch, Jan. 2011.

[73] MILED, A., SAWAN, M., “Capteur implantable basé sur LSP dédié à la détection cellulaire par diélectrophorèse”, Fetch Workshop, Quebec, Jan. 2011.

[72] MOUNAIM, F., SAWAN, M., “Neurostimulateur hautement intégré et nouvelle stratégie de stimulation pour améliorer la miction chez les paraplégiques”, Fetch Workshop, Quebec, Jan. 2011.

[71] LAREAU, E., LESAGE F., SAWAN, M., “Système hétérogène portable dédié à l’imagerie cérébrale fonctionnelle portable bimodalitée”, Fetch Workshop, Quebec, Jan. 2011.

[70] MILED, A., SAWAN, M., “LoCDielectrophoresis – Based Implantable DeviceDedicated for Cells Manipulation and Detection”, CMC Microsystems Meeting, Ottawa, Oct. 2010.

[69] TARIQUS-SALAM, M., MOUNAIM, F., SAWAN, M., NGUYEN, D., “A Closed-Loop Implantable Device for EpilepticSeizureDetection and Neurostimulation”, American Epilepsy Meeting, Texas, USA, Dec. 2010.

[68] MILED, M.A., SAWAN, M., “LoCDielectrophoresis – Based Implantable DeviceDedicated for Cells Manipulation and Detection”, CMC Texpo, 2010.

[67] POULIOT, P., TREMBLAY, J., ROBERT, M., VANNASING, P., LEPORE, F., LASSONDE, M., SAWAN, M., NGUYEN, D.K., LESAGE, F., Multimodal analysis of nonlinearhemodynamicresponses in humanepilepsy, Society for Neuroscience, San Diego, 2010.

[66] TARIQUS-SALAM, M., SAWAN, M., et al., “Low-Voltage Fast-Activity EpilepticSeizure Detector”, Canadian Epilepsy Meeting, Saskatoon, Canada, November 2009.

[65] MILED, M.A., SAWAN, M., “Implantable Microsystems Dedicated for Neural CellsSeparation and Detection”, NAMIS 2008, AutomnSchool, Tokyo, Japan Sept-Oct. 2008.

[64] TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., HAMOUI, A. “Biomedical Implantable Micro-device for EpilepsyTreatment”, NAMIS, Montreal, August 2008.

[63] GHAFER-ZADEH, E., R., SAWAN, M., THERRIAULT, D., “A Hybrid IC/MicrofluidicSensor for Lab-on-Chips”, CMC Microsystems Annual Workshop, Montreal, August 2007.

[62] GHAFER-ZADEH, E., R., SAWAN, M., THERRIAULT, D., “A New Approach for the Integration of Microfluidic Structures to MicroelectronicDevices”, CMC Microsystems Annual Workshop, Ottawa, October 2005.

[61] VEILLEUX, N., SAWAN, M., “Modélisation et caractérisation d’une architecture générique de systèmes ultrasoniques portable”, AITS, Montreal, March 2006.

[60] CHEBLI, R., SAWAN, M., “HVCMOS DC-DC ConverterDedicated for UltrasonicTransducer”, MicronetAnnual Workshop, Ottawa, May 2005.

[59] DESILETS, T., SAWAN, M., BELLEMARE, F., “Nouveau Catheteroesophagien sans fil dédié au diagnostic de dysfonctions respiratoires”, AITS, Montreal, May 2005

[58] HUANG, Z., SAWAN, M., “DynamicallyControlled HVCMOS Low-Power Level-up Shifter”, MicronetAnnual Workshop, Toronto, April 2004.

[57] CHEBLI, R., SAWAN, M., “HVCMOS DC-DC ConverterDedicated for UltrasonicTransducer”, MicronetAnnual Workshop, Toronto, April 2004.

[56] KASSEM, A., SAWAN, M., “Efficient Pipelined Architecture of an Ultrasonic Digital Beamforming Interface”, MicronetAnnual Workshop, 2003.

[55] CARNIGUAIN, S., COULOMBE, J., SAWAN, M., “New Scanning Terchnique for the Power Management of Pixel Array”, MR&DCAN,Montreal, June 2003.

[54] BUFFONI, L.-X., SAWAN, M., “An Image Processing System Dedicated to Cortical Visual Stimulators”, MR&DCAN,Montreal, June 2003.

[53] COULOMBE, J., SAWAN, M., “Prototype de l’implant visuel”, MR&DCAN,Montreal, June 2003.

[52] COULOMBE, J., HARVEY, JF., ROY, M., SAWAN, M., “Prototype de l’implant visuel”, MR&DCAN, June 2000.

[51] ABDEL-KARIM, A.M., ABDEL-GAWAD, M., SAWAN, M., et ELHILALI, M.M., “Neurostimulation of the Sacral Nerve Roots for Treament of BladderDysfunction of Paraplegics”, 1stAnnual McGill BiomedicalGraduateConference, Montreal, QC, February 2001.

[50] DJEMOUAI, A., SAWAN, M., “An FLL Based RF Inductive Link withAutomatic Control of Power Transfer and Data Transmission”, MicronetAnnual Workshop, April 2000.

[49] FAYOMI, C., ROBERTS, G., SAWAN, M., “Low-Power Low-Voltage High- Speed CMOS DifferentialTrack and LatchComparatorwith Rail-to-rail Input”, MicronetAnnual Workshop, April 2000.

[48] BEAUCHAMP-PARENT, A., SAWAN, M., “New Reconfigurable UltrasonicEnuresis Monitoring System”, AQFIM, June 1998.

[47] BRAIS, L.-P., SAWAN, M., “Adaptive FilteringUsing Field Programmable Devices”, GRIAO ResearchReview, Montreal, May 1998.

[46] EL-HASSAN, F., SAVARIA, Y., KHALI, H., SAWAN, M., “Hardware/Software Architecture of a ViterbiDecoder”, GRIAO ResearchReview, Montreal, May 1998.

[45] DJEMOUAI, A., SAWAN, M., SLAMANI, M., “High Performance Integrated CMOS Frequency-to-Voltage Converter”, GRIAO ResearchReview, Montreal, May 1998.

[44] VOGHELL, J.C., BOURRET, S., SAWAN, M., “High Resolution and Low Area DAC Dedicated to Programmable Current-Source”, GRIAO ResearchReview, Montreal, May 1998.

[43] HARVEY, J.-F., SAWAN, M., “Integrated External Controller Dedicated to a Visual Implant”, GRIAO ResearchReview, Montreal, May 1998.

[42] FOUZAR, Y., SAWAN, M., SAVARIA, Y., “A BiCMOS Wide-Lock Range Fully Integrated PLL ”, GRIAO ResearchReview, Montreal, May 1998.

[41] CANTIN, L.-P., SAWAN, M., “Universal Sensor Interface”, GRIAO ResearchReview, Montreal, May 1998.

[40] SAWAN, M., CANTIN, L.-P., HARB, A, OUICI, K., ASSI, A., “CMOS Analog Building Blocks Dedicated to Sensor’s Interfaces”, MicronetAnnual Workshop, Ottawa, April 1998.

[39] TU, L.M., SHAKER, H.S., ROBIN, S., et al., “Selective Sacral High FrequencyBlockade to ReduceBladderOutletResistance in Dogs: An Acute Study”, American Urological Association Meeting, 1997.

[38] ROBIN, S., SAWAN, M., “Stimulateur neuromusculaire implantable”, Association québécoise des fabricants de l’industrie médicale, October 1996.

[37] HARVEY, J.F., SAWAN, M., “Acquisition et traitement d’images dédiées à un implant visuel”, Association québécoise des fabricants de l’industrie médicale, October 1996.

[36] PETRICAN, P., SAWAN, M., “Conception et réalisation d’un appareil ultrasonique miniaturisé dédié à l’évaluation du volume de la vessie”, Asso. Québécoise des fabricants de l’industrie médicale, October 1996.

[35] ROBIN, S., PROVOST, B., SAWAN, M., “A Complete Neuromuscular Stimulation System Based on FPGA Technology”, CMC’96, Ottawa, June 1996.

[34] FAYOMI, C., SAWAN, M., “Architecture parallèle d’une formulation simplifiée du filtre de Kalman”, 64e Congrès de l’ACFAS, Montreal, May 1996.

[33] PROVOST, B., SAWAN, M., “Conception et réalisation d’un microcircuit implantable pour la mesure du volume vésical”, 64e Congrès de l’ACFAS, Montreal, May 1996.

[32] HARB, A., SAWAN, M., HAROUN, B., “Convertisseur analogique/numérique à haute résolution dédié à des capteurs sensoriels implantables”, 64e Congrès de l’ACFAS, Montreal, May 1996.

[31] FIERRO, L.B., SAWAN, M., “Télécommande miniaturisée d’un stimulateur neuromusculaire implantable”, 64e Congrès de l’ACFAS, Montreal, May 1996.

[30] SAWAN, M., ST-AMAND, R., SAVARIA, Y., “Biphasic Programmable Current-Sources for Implantable MiniaturizedStimulators”, Biomedical Eng. Society, Annual Meeting, Boston, October 1995.

[29] SAWAN, M., ARABI, K., HASSOUNA, M., ELHILALI, M., “New Generation of MicrostimulatorsDedicated to Bladder Control”, Society for Urology and Engineering, Las Vegas, April 1995.

[28] BOYER, A., SAWAN, M., “Conception et réalisation d’un démultiplexeur analogique dédié à un microstimulateur visuel implantable”, 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[27] PROVOST, B., SAWAN, M., “Conception d’un préamplificateur programmable à basse tension d’alimentation pour capteurs implantables”, 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[26] FAYOMI, C., SAWAN, M., BENNIS, S., “Approche multivariable de prédiction de séries linéaires en utilisant le réseau adaline et la technique du filtre de Kalman”, 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[25] ARABI, K., SAWAN, M., “Module du générateur des signaux programmables d’un microstimulateur destiné aux dysfonctionnements vésicaux” 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[24] BARADA, H., SAWAN, M., van der PUIJE, P.D., et al., “Interfaces neuroélectroniques et tests in-vivo dédiés au contrôle de dysfonctions urinaires”, 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[23] HARB, A., SAWAN, M., ZHU, J., “Récepteur transcutané implantable pour des applications biomédicales”, 63e Congrès de l’ACFAS, Chicoutimi, 1995.

[22] ARABI, K., SAWAN, M., “Microstimulateur implantable destiné à la récupération de dysfonctions urinaires”, Congrès de l’AQFIM, Montreal, November 1994.

[21] SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., “Stimulation électrique pour récupérer les fonctions vésicales”, Congrès de l’AQFIM, Montreal, November 1994.

[20] BARADA, H., SAWAN, M., van der PUIJE, P.D., HASSOUNA, M., ELHILALI, M.M., “Stimulateur percutané, interfaces neuroélectroniques et tests in-vivo dédiés au contrôle de dysfonctions vésico-sphinctériennes”, Congrès de l’AQFIM, Montreal, November 1994.

[19] PROVOST, B., SAWAN, M., “Moniteur versatible et invisible à l’usager pour compte-gouttes miniature”, Congrès de l’AQFIM, Montreal, November 1994.

[18] SAWAN, M., HASSOUNA, M., ELHILALI, M.M., “High Frequency Stimulation to Fatigue the Sphincter for Total BladderEvacuation”, 10th Annual Spinal CordResearch Symposium, Montreal, October 1994.

[17] ARABI, K., SAWAN, M., “Design of an Implantable NeuromuscularProsthesisDedicated to BladderDysfunctions”, 10th Annual Spinal CordResearch Symposium, Montreal, October 1994.

[16] LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F., et al., “Return of Detrusor Activity after Spinal Shockusing Stimulation: A Possible Mecanism of Action”, AUA Meeting, Toronto, June 1991.

[15] LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F., ELHILALI, M.M., “Modulation of Sphincter ResistanceduringVoiding by Electrical Stimulation”, American Urological Association, Toronto, June 1991.

[14] SAWAN, M., “Nouvelle génération des stimulateurs neuromusculaires implantables”, Congrès de l’ACFAS, Sherbrooke, May 1991.

[13] SAWAN, M., DUVAL, F., ELHILALI, M.M., HASSOUNA, M., “Contrôleur versatile pour un stimulateur nerveux autonome”, Congrès de l’ACFAS, Sherbrooke, May 1991.

[12] WEI, M., DUVAL, F., SAWAN, M., MOUINE, J., POURMEHDI, S., “A Versatile Design of the Output Stage for a Multichannel Pain Controller”, CMC91 Workshop, Kingston, May 1991.

[11] MOUINE, J., DUVAL, F., POURMEHDI, S., SAWAN, M., “Un implant cochléaire à huit canaux complètement programmable”, Congrès de l’ACFAS, Quebec, May 1990.

[10] LACHANCE, J., SAWAN, M., POURMEHDI, S., DUVAL, F., “Une télécommande portative pour un implant urinaire”, Congrès de l’ACFAS, Quebec, May 1990.

[9]   SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., POURMEHDI, S., MOUINE, J., “Contrôle par microordinateur d’un implant urinaire multicanal”, Congrès de l’ACFAS, Quebec, May 1990.

[8]   POURMEHDI, S., DUVAL, F., MABILLEAU, P., MOUINE, J., SAWAN, M., “Codage en temps réel du signal de la parole pour une prothèse auditive”, Congrès de l’ACFAS, Quebec, May 1990.

[7]   LECLAIR, M., SAWAN, M., DUVAL, F., “Conception des nouvelles électrodes biocompatibles”, Congrès de l’ACFAS, Quebec, May 1990.

[6]   MOUINE, J., DUVAL, F., POURMEHDI, S., SAWAN, M., “Conception d’une puce dédiée à un neurostimulateurmultiélectrodes”, Congrès de l’ACFAS, Quebec, May 1990.

[5]   POURMEHDI, S., DUVAL, F., MOUINE, J., SAWAN, M., “Une nouvelle prothèse électro-tactile”, Congrès de l’ACFAS, Quebec, May 1990.

[4]   SAWAN, M., DUVAL, F., “Conception et réalisation d’une nouvelle génération de prothèses neurologiques”, Congrès de l’ACFAS, Montreal, May 1989.

[3]   HASSOUNA, M., EL-RIFAEI, A., FOUDA, A., LATT, R., SAWAN, M., DUVAL, F., ELHILALI, M.M., “The Effect of EarlyBladder Stimulation on the Spinal Shock”, AUA Meeting, Boston, June 1988.

[2]   TALBOT, M.A., ABTAHI, R., SAWAN, M., DUVAL, F., “A 16-Channel Cochlear Implant”, CMC Workshop, Kingston, June 1988.

[1]   SAWAN, M., ABTAHI, R., DUVAL, F., MAILHOT, F., TALBOT, M.A., “A New Generation of NeurologicalProsthesis”, CMC Workshop, Kingston, June 1988.

G. Rapports techniques et scientifiques

[13] SHAFIQUE, O., HASSAN, A., SAVARIA, Y., SAWAN, M., “HarvestingEnergy and Data in HarshEnvironment”, Thales Canada et Airbus, 2015.

[12] HASHEMI, S., SAWAN, M., ZHU, G., “CRIAQ AVIO-402 Project: Data Networks and Smart Sensors for Safety-Critical Avionics Applications, Integration Report”, Thales Canada et Bombardier, 2014.

[11] MILED, M.A., SAWAN, M., “InterconnectingMicrotubes in Microfluidic Applications”, CMC Microsystems, 2012.

[10] MILED, M.A., SAWAN, M., “A Novel Multi-Electrical Channel Manipulation and Detection Platform for Microfluidic Applications”, CMC Microsystems, 2012.

[9]   MILED, M.A., SAWAN, M., “Removable PDMS-basedInterconnector for Low-pressure Microfluidic Applications”, CMC Microsystems, 2012.

[8]   MILED, M.A., SAWAN, M., “An Assembly Technique for ReusableMicrofluidic Chips withElectrical Interface”, CMC Microsystems, 2012.

[7]   BOYER, S., SAWAN, M., “Réalisation du capteur neuronique”, Denver, Victhom Bio. Humaine, 2003.

[6]   Delage, JF., SAWAN, M., “Évaluation technique de systèmes d’identification électronique destinés à l’étiquettage des bovins”, Fédération des producteurs de bovins du Quebec, 2000.

[5]   GUERFALI, W., PLAMONDON, R., SAWAN, M., “Système électromagnétique de suivi, de mesure et de modélisation des mouvements humains en 3D”, Laboratoire Scribens, 1998.

[4]   PROVOST, B., SAWAN, M., “Moniteur de compte-gouttes miniaturisés”, Bausch &Lomb, 1993.

[3]   SAWAN, M., “Initiation au système de stimulation urologique”, GRAMS, Université de Sherbrooke, 1989.

[2]   SAWAN, M., “Conception et fabrication d’une puce dédié (SHSBG) pour l’indicateur de fertilité BS120 (G2)”, GRAMS, Université de Sherbrooke, 1988.

[1]   SAWAN, M., “Initiation au système de traitement numérique des ondes sonores par GAUSTS”, GAUS, Université de Sherbrooke, 1985.



© Mohamad Sawan 2011 / Last Update 14-11-2011