Céderick Landry

Prix et distinctions

• (2024) NSERC Postdoctoral Fellowship (PDF). Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2021) President's Graduate Scholarship. University of Waterloo. (Distinction).
• (2021) President's Graduate Scholarship - Engineering. University of Waterloo. (Distinction).
• (2021) Graduate Research Studentship. University of Waterloo. (Distinction).
• (2021) NSERC Alexander Graham Bell Canada Graduate Scholarships-Doctoral, PhD. Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2020) Fonds de recherche Nature et technologie (FRQNT) Scholarship A7, PhD. Fonds de recherche du Québec - Nature et technologies (FRQNT). (Distinction).
• (2020) Fonds de recherche Nature et technologie (FRQNT) Scholarship B2, PhD. Fonds de recherche du Québec - Nature et technologies (FRQNT). (Distinction).
• (2017) Fonds de recherche Nature et technologie (FRQNT) Scholarship B1, MSc. Fonds de recherche du Québec - Nature et technologies (FRQNT). (Distinction).
• (2017) NSERC Canada Graduate Scholarships-Master’s Program. Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2014) NSERC Undergraduate Student Research Awards. Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2013) NSERC Undergraduate Student Research Awards. Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2013) Attestation of academic excellence. Université de Sherbrooke. (Distinction).
• (2013) NSERC Industrial Undergraduate Student Research Awards. Natural Sciences and Engineering Research Council of Canada (NSERC). (Distinction).
• (2012) Attestation of academic excellence. Université de Sherbrooke. (Distinction).
• (2012) Bourse à la mobilité (ministère de l'Éducation, du Loisir et du Sport (MELS) et du ministère de l'Enseignement supérieur, de la Recherche et de la Science (MESRS)). Gouvernement du Québec. (Prize / Award).
• (2012) Mobilité étudiante (Office Québec-Amériques pour la jeunesse (OQAJ) now Les Offices jeunesse internationaux du Québec (LOJIQ)). Gouvernement du Québec. (Prize / Award).
• (2011) Attestation of academic excellence. Université de Sherbrooke. (Distinction).
• 2019 BIO-HACKATHON AND SUMMER SCHOOL first place team award. University of Waterloo. (Prize / Award).
• AHS International 35th Annual Student Design Competition - 24 Hour Hovering Machine Conceptual Design. Georgia Institute of Technology. (Prize / Award).
• Featured Article in IEEE Journal of Biomedical and Health Informatics - Accurate Blood Pressure Estimation during Activities of Daily Living: A Wearable Cuffless Solution. Institute of Electrical and Electronics Engineers. (Citation).
• Mechanical and Mechatronics Engineering Graduate Association Symposium first place Award. University of Waterloo. (Prize / Award).
• Mechanical and Mechatronics Engineering Three Minute Thesis First place Award. University of Waterloo. (Prize / Award).
• Startup Weekend Sherbrooke - Maker Edition. La Fabrique. (Prize / Award).
• University of Waterloo Graduate Scholarship. University of Waterloo. (Distinction).
• University of Waterloo Graduate Scholarship. University of Waterloo. (Distinction).

Financement

• Grant. (Awarded). Principal Investigator. Wearable tonometry and oscillometry for data-driven cuffless blood pressure waveform monitoring. Natural Sciences and Engineering Research Council of Canada (NSERC). Discovery. 152 500 $. (2024-2029)
• Grant. (Declined). Co-investigator. Imagerie ultrasonore transcrânienne ultrarapide par réseau de transducteurs distribués. Fonds de recherche du Québec - Nature et technologies (FRQNT). Team Research Project. 150 000 $. (2024-2026)
• Grant. (Awarded). Principal Investigator. CdRV Startup funds. Centre de recherche sur le vieillissement de l'IUGS. Startup funds. 25 000 $. (2024-2026)
• Grant. (Awarded). Principal Investigator. University Startup Funds. University of Sherbrooke. Startup funds. 70 000 $. (2023-2025)
• Grant. (Awarded). Principal Investigator. Intermittent compression for minimizing blood pressure drop in heart failure patients. Centre de Recherche du Centre Hospitalier de l'Université de Sherbrooke Inc. (CRCHUS) (Sherbrooke, QC). Concours DOCC. 10 000 $. (2024-2025)
• Grant. (Declined). Principal Investigator. System for measuring the blood pressure and volume waveform for gold standard hemodynamic monitoring. Natural Sciences and Engineering Research Council of Canada (NSERC). Research Tools and Instruments grants program. 132 000 $. (2024-2025)
• Grant. (Awarded). Co-investigator. Conversion d’un dynamomètre du plancher pelvien vers une version sans fil, pour mesurer la fonction musculaire debout (Conversion of a pelvic floor dynamometer to a wireless version, to measure standing muscle function). ingénierie de technologies interactives en réadaptation (INTER). INTER. 21 800 $. (2024-2025)
• Grant. (Awarded). Principal Investigator. L'importance de mesurer la pression artérielle chez les ainées pour prévenir les chutes (The importance of measuring blood pressure in the elderly to prevent falls). Institut interdisciplinaire d'innovation technologique - 3IT. 3IT Research Funds. 24 000 $. (2024-2025)
• Grant. (Awarded). Principal Investigator. Sauver nos ainés des chutes : une question de pression (Saving our elders from falls: a matter of pressure). ingénierie de technologies interactives en réadaptation (INTER). INTER. 17 518 $. (2024-2025)
• Grant. (Awarded). Co-investigator. Acceptability, user experience and effect of a new mobile app, 'OUPS!', a FemTech solution designed for the treatment of urinary incontinence in menopausal women: a mixed method study. Canadian Institutes of Health Research (CIHR). 149 489 $. (2024-2025)
• Grant. (Awarded). Principal Investigator. Mitacs. Mathematics of Information Technology and Complex Systems (MITACS). 6 000 $. (2024-2024)
• Grant. (Declined). Collaborator. Low-cost sensor system for COVID-19 patient monitoring. National Research Council Canada (NRC) (Ottawa, ON). NRC COVID-19 Funding. 2 300 000 $. (2020-2021)
• Grant. (Under Review). Principal Investigator. Device for continuous blood pressure measurement during cardiac rehabilitation (Appareil de mesure de la pression artérielle en continue lors de la réadaption cardio-pulmonaire). ingénierie de technologies interactives en réadaptation (INTER). INTER. 23 375 $.
• Grant. (Under Review). Principal Investigator. La compression intermittente pour prévenir les chutes chez les ainées (Intermittent compression to prevent falls in the elderly). ingénierie de technologies interactives en réadaptation (INTER). INTER. 30 480 $.

Publications

Articles de revue

• Landry, C; Dhamotharan, V, Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2024). A Smartphone Application Toward Detection of Systolic Hypertension in Underserved Populations. Nature - Scientific Reports - -. (Accepted).
• Landry, C; Dhamotharan, V; Freithaler, M; Daher, H; Shroff, S; Mukkamala, R. (2024). Nonlinear Viscoelastic Modeling of Finger Arteries: Toward Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressing Method. IEEE Transaction on Biomedical Engineering 1-10. DOI. (Published).
• Landry, C; Mukkamala, R. (2023). Current Evidence Suggests that Estimating Blood Pressure from Convenient ECG Waveforms Alone is Not Viable. Journal of Electrocardiology 81 153-155. (Published).
• Santelices, I; Landry, C; Peterson, S; Arami, A. (2023). Evaluating Deep Reinforcement Learning to Optimize Intermittent Pneumatic Compression Timing. IEEE Journal of Biomedical And Health Informatics - -. (Accepted).
• Freithaler, M; Chandrasekhar, A; Dhamotharan, V; Landry, C; Shroff, S; Mukkamala, R. (2023). Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressing Method: Analysis of Oscillation Width Variations Can Improve Diastolic Pressure Computation. IEEE Transaction on Biomedical Engineering 70 3052 - 3063. (Published).
• Freithaler, M; Daher, H; Landry, C; Dhamotharan, V, Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressing Method:Incorporation of DC PPG Measurement. IEEE Transaction on Biomedical Engineering - -. (Submitted).
• Landry, C; Peterson, S; Arami, A;. (2022). A Fusion Approach to Improve Accuracy and Estimate Uncertainty in Cuffless Blood Pressure Monitoring. Nature - Scientific Reports 12 (1), 1-10. (Published).
• Landry, C; Hedge, E; Hughson, R; Peterson, S; Arami, A;. (2022). Cuffless Blood Pressure Estimation during Moderate- and Heavy-Intensity Exercise using Wearable ECG and PPG. IEEE Journal of Biomedical and Health Informatics 26 (12), 5942-5952. (Published).
• Dhamotharan, V; Chandrasekhar, A; Cheng, H-M; Chen, C-H; Sung, S-H; Landry, C; Hahn, J-O; Mahajan, A; Shroff, S; Mukkamala, R. (2022). Mathematical Modeling of Oscillometric Blood Pressure Measurement: A Complete, Reduced Oscillogram Model. IEEE Transaction on Biomedical Engineering 20 (2), 715-722. (Published).
• Mukkamala, R; Shroff, S; Landry, C; Kyriakoulis, K; Avolio, A; Stergiou, G;. (2022). The Microsoft Research Aurora Project: Take Caution in Using Cuffless Blood Pressure Measurement Devices. Hypertension 80 (3), 534-540. (Published).
• Landry, C; Hedge, E; Hughson, R; Peterson, S; Arami, A;. (2021). Accurate Blood Pressure Estimation during Activities of Daily Living: A Wearable Cuffless Solution. IEEE Journal of Biomedical And Health Informatics 25 (7), 1-10. DOI. (Published).
• Dubois, P; Landry, C; Thibault, D; Plante, J-S; Picard, M; Picard, B. (2021). Benefits and Challenges of the Inside-OutCeramic Turbine: An Experimental Assessment. Journal of Propulsion and Power 38 1-8. (Published).
• Landry, C; Loewen, D; Rao, H; Pinto, B; Bahensky, R; Chandrashekar, N. (2021). Isolating In-situ Grip and Push Force Distribution from Hand-Handle Contact Pressure with an Industrial Electric Nutrunner. Elsevier Medical Engineering & Physics 21 1-8. (Submitted).
• Landry, C; Peterson, S; Arami, A. (2020). Nonlinear Dynamic Modelling of the Blood Pressure Waveform: Towards an Accurate Cuffless Monitoring System. IEEE Sensors Journal 20 (10), 5368-5378. DOI. (Published).
• Landry, C; Dubois, P; Plante, J-S; Charron, F; Picard, M. (2018). Design Space Exploration of a New Flexible Hub Concept for Inside-Out Ceramic Turbine Using a Simplified Rotordynamic Finite Element Model. The American Society of Mechanical Engineering: Journal of Vibration and Acoustics 141 (1), 1-10. DOI. (Published).
• Landry, C; Dubois, P; Plante, J-S; Charron, F; Picard, M. (2017). Rotordynamic of a Highly Flexible Hub for Inside-Out Ceramic Turbine Application: Finite Element Modeling and Experimental Validation. The American Society of Mechanical Engineering: Journal of Vibration and Acoustics 140 (1), 1-10. DOI. (Published).
• Rancourt, D; Fréchette, L; Landry, C; Mavris, D. (2014). Design Space Exploration of Centimeter-Scale Wind Turbines using a Physics-Modified Optimization Formulation. The Society of Theoretical and Applied Mechanics: Journal of Mechanics 30 (05), 537-548. DOI. (Published).

Articles de conférence

• Landry, C; Dhamotharan, V, Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). A Nonlinear Viscoelastic Model to Study the Oscillometric Finger Pressing Method for Smartphone-Based Blood Pressure Monitoring. 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). (Published).
• Landry, C; Dhamotharan, V; Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). A Smartphone Application for Absolute Blood Pressure Monitoring. 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). (Published).
• Dhamotharan, V; Landry, C; Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). A Smartphone Application to Detect and Control Systolic Hypertension in the Underserved. to IEEE EMBS International Conference on Biomedical & Health Informatics (BHI). (Accepted).
• Jazini, M; Yavan, S; Smith, A; Landry, C; Mukkamala, R; Hauspurg, A. (2023). A Transfer Function Method to Improve the Reproducibility of Valsalva ManeuverResponses. IEEE EMBS International Conference on Biomedical & Health Informatics (BHI). (Published).
• Freithaler, M; Daher, H; Landry, C; Dhamotharan, V, Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). DC PPG to Improve the Accuracy of the Oscillometric Finger Pressing Method for Smartphone-Based Blood Pressure Monitoring. IEEE EMBS International Conference on Biomedical & Health Informatics (BHI). (Accepted).
• Dhamotharan, V; Cheng, H-M; Chen, C-H; Sung, S-H; Landry, C; Freithaler, M; Shroff, S; Mahajan, A; Mukkamala, R. (2023). Exploring Oscillation Area Variations in Oscillometric Blood Pressure Measurement. IEEE EMBS International Conference on Biomedical & Health Informatics (BHI). (Published).
• Santelices, I; Landry, C; Peterson, S; Arami, A. (2023). Investigating Optimal Intermittent Pneumatic Compression Timing Across Two Days. IEEE-EMBS International Conference on Body Sensor Networks. (Accepted).
• Santelices, I; Landry, C; Peterson, S; Arami, A. (2023). Optimal Intermittent Pneumatic Compression Timing With Deep Reinforcement Learning: a Proof-of-Concept. IEEE-EMBS International Conference on Body Sensor Networks. (Accepted).
• Dhamotharan, V; Cheng, H-M; Chen, C-H; Sung, S-H; Landry, C; Freithaler, M; Shroff, S; Mahajan, A; Mukkamala, R. (2023). Oscillometric Blood Pressure Measurement: Mathematical Modeling and Analysis of Oscillation Area Variations. 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). (Published).
• Dhamotharan, V; Landry, C; Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). Smartphone-Based Blood Pressure Monitoring. The 19th IEEE International Conference on Wearable and Implantable Body Sensor Networks (BSN). (Accepted).
• Freithaler, M; Daher, H; Landry, C; Dhamotharan, V; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressing Method: Incorporation of DC PPG Measurement. 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). (Published).
• Landry, C; Dhamotharan, V; Freithaler, M; Shroff, S; Chandrasekhar, A; Mukkamala, R. (2023). The Smartphone-Based Oscillometric Finger Pressing Method: Modeling Finger Artery Viscoelasticity For Improved Blood Pressure Computation. IEEE EMBS International Conference on Biomedical & Health Informatics (BHI). (Published).
• Landry, C; Freithaler, M; Dhamotharan, V, Shroff, S; Chandrasekhar, A; Mukkamala, R. (2022). Estimating Pulse Pressure from the PPG Oscilllogram using a Hand Raising Protocol. The American Heart Association’s 2022 Fellows Research Day. (Published).
• Dhamotharan, V; Chandrasekhar, A; Cheng, H-M; Chen, C-H; Sung, S-H; C. Landry, Hahn, J-O; Mahajan, A; Shroff, S; Mukkamala, R. (2022). Mathematical Modeling of Oscillometric Blood Pressure Measurement: A Complete, Reduced Oscillogram Model. 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC). (Published).
• Freithaler, M; Chandrasekhar, A; Landry, C; Dhamotharan, V; Shroff, S; Mukkamala R. (2022). Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressure Method: Detection of Diastolic Pressure. 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC). (Published).
• Landry, C; Freithaler, M; Dhamotharan, V, Shroff, S; Chandrasekhar, A; Mukkamala, R. (2022). Toward Turning Any Smartphone into an Absolute Blood Pressure Sensor. 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC). (Published).
• Landry; C, Hedge; E; Hughson, R; Peterson, S; Arami, A. (2020). Cuffless Blood Pressure Estimation for Activities of Daily Living. 42nd Annual International Conferences of the IEEE Engineering in Medicine and Biology Society in con, (Published).
• Landry, C; Arami, A; Peterson, S. (2020). Intermittent Pneumatic Compression: Towards Optimal Timing for Enhancing Lower Limb Blood Flow. Progress in Canadian Mechanical Engineering. Volume 3, 1-6. (Published).
• Landry, C; Peterson, S; Arami, A. (2020). Towards Continuous Cuffless Blood Pressure Monitoring Using MachineLearning. Center for Bioengineering and Biotechnology Research Networking Event - Data Driven Biomedical Applications of AI. (Published).
• Landry, C; Peterson, S; Arami, A. (2019). Estimation of the Blood Pressure Waveform using Electrocardiography. 2019 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (E, 7060-7063. (Published).
• Landry, C; Picard, B; Parent-Simard, T; Plante, J-S; Picard, M. (2018). Rotordynamics Experimental Validation of a Sliding-Blade Architecture for Inside-Out Ceramic Turbines. Turbo Expo: Power for Land, Sea, and Air, 1-9. (Published).
• Landry, C; Peterson, S; Arami, A. (2018). Towards Continuous Cuffless Blood Pressure Monitoring Using Machine Learning. Biotec 2018. (Published).
• Courtois, N; Ebacher, F; Dubois, P; Kochrad, N; Landry, C; Charette, M; Landry-Blais, A; Fréchette, L; Plante, J-S; Picard, M; Picard, B. (2017). Experimental and Numerical Validation of a Cooling System for an Inside-Out Ceramic Turbine Composite Rim. Turbo Expo: Power for Land, Sea, and Air, 1-10. (Published).
• Landry, C; Dubois, P; Courtois, N*; Charron, F; Picard, M; Plante, J-S. (2016). Development of an Inside-Out Ceramic Turbine. Turbo Expo: Power for Land, Sea, and Air, 1-10. (Published).

Propriétés intellectuelles

Patents

• Freithaler, M; Chandrasekhar, Dhamotharan, V; Landry, C; Shroff, S; Mukkamala, R;. Device, system, and method for determining arterial and venous blood pressure. US 63/515,239. United States of America. (Pending).
• Plante; J-S; Picard, M; Landry-Blais, A; Fortier-Topping, H; Gurin, M; Landry, C; Dubois, P; Frechette, L; Picard, B;. High G-field Combustion. US20170234543A1. United States of America. (Granted/Issued).
• Plante; J-S; Picard, M; Landry-Blais, A; Fortier-Topping, H; Gurin, M; Landry, C; Dubois, P; Frechette, L; Picard, B;. High temperature ceramic rotary turbomachinery. US20190323354A1. United States of America. (Granted/Issued).
• Freithaler, M; Chandrasekhar, Dhamotharan, V; Landry, C; Shroff, S; Mukkamala, R;. Methods and Apparatus for Measurement of Blood Pressures. US 63/482,868. United States of America. (Pending).
• Loewen, Landry, C; D; Rao, H; Pinto, B; Bahensky, R; Chandrashekar, N. System and Method for Real-time Feedback. US 63/191,456. United States of America. (Pending).
• Pocock, B; Peterson, S; Landry, C; Tsang, R. “Belts and Barrels” System for Limb Compression. PCT/US2022/021781. United States of America. (Pending).

Autres contributions

Cours enseignés

• IMC326 - Mechatronics 1. (2024-04-29).
• PMC760 - Capstone design project 2. (2024-01-08).
• ME360 – Introduction to Control Systems. (2020-01-06).
• ME351 - Fluid Mechanics 1. (2018-09-03 à 2019-12-20).
• IMC500 – Finite Element Modeling and Practical Application. (2017-05-01 à 2017-08-25).
• IMC156 – Design Methodology. (2017-01-02 à 2017-04-28).
• GMC753 – Fluid Mechanics complement. (2016-09-05 à 2016-12-23).
• IMC500 – Finite Element Modeling and Practical Application. (2015-01-05 à 2017-04-28).

Gestion d'évènements

• Director. (2016-2017) Createk25k competition at Université de Sherbrooke. (Seminar).

Présentations

• (2025). Monitorage hémodynamique non invasif et applications cliniques (Non-invasive Hemodynamic Monitoring and Clinical Applications). Congrès Scientifique de Société Québécoise d'Hypertension Artérielle. Montreal, Canada
• (2024). Are Cuffless BP Devices Ready for Primetime?. Obesity and Hypertension in Canada: From Science to Solutions (by Hypertension Canada & Obesity Canada). Banff, Canada
• (2024). Diminuer les chutes de pression chez les aînés (Reducing blood pressure drops in seniors). Conférence CRCHUS 2.0. Sherbrooke, Canada
• (2024). Technologies cardiovasculaires : De la mesure au contrôle de la pression artérielle (Cardiovascular Technologies: From Blood Pressure Measurement to Control). MIDIS-INTER. Sherbrooke, Canada
• (2023). A Nonlinear Viscoelastic Model to Study the Oscillometric Finger Pressing Method for Smartphone-Based Blood Pressure Monitoring. 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). Sidney, Australia
• (2023). Toward Smartphone-Based Blood Pressure Monitoring. 2023 International Society for Computerized Electrocardiology (ISCE) Annual Conference. Indian Wells, United States of America
• (2022). Estimating Pulse Pressure from the PPG Oscilllogram using a Hand Raising Protocol. The American Heart Association’s 2022 Fellows Research Day. Pittsburgh, United States of America
• (2022). Finger Oscillometry for Cuffless and Calibration-Free Blood Pressure Monitoring. 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC). Glasgow, United Kingdom
• (2022). Toward Cuffless Blood Pressure Monitoring with Smartphones. 2022 McGowan Institute Scientific Retreat. Pittsburgh, United States of America
• (2022). Toward Turning Any Smartphone into an Absolute Blood Pressure Sensor. 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC). Glasgow, United Kingdom
• (2021). Conference Presentation: Estimation Fusion Improves Cuffless Blood Pressure Waveform Prediction. 17th IEEE International Conference on Wearable and Implantable Body Sensor Networks, Virtual Conference, July 27 – 30 (2021). Virtual, Canada
• (2021). Departmental Symposium: Confidence Interval for Cuffless Blood Pressure Estimation. Mechanical and Mechatronics Graduate Association Symposium. Waterloo, Canada
• (2020). Conference Presentation (Video): Cuffless Blood Pressure Estimation for Activities of Daily Living. 42nd Annual International Conferences of the IEEE Engineering in Medicine and Biology Society in conjunction with the 43rd Annual Conference of the Canadian Medical and Biological Engineering Society. Montreal, Canada
• (2020). One Slide Presentation Competition: Enhancing the Enhancement: When Artificial Intelligence Meets the Mechanics of Blood Flow. Three Minute Thesis. Waterloo, Canada
• (2020). Poster Presentation: Towards Continuous Cuffless Blood Pressure Monitoring Using Machine Learning. Center for Bioengineering and Biotechnology Research Networking Event - Data Driven Biomedical Applications of AI. Waterloo, Canada
• (2019). Conference Presentation: Estimation of the Blood Pressure Waveform using Electrocardiography. 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Berlin, Germany
• (2019). Departmental Symposium Competition: Optimizing Compression Device to Enhance Lower Limbs Blood Flow. Mechanical and Mechatronics Graduate Association Symposium. Waterloo, Canada
• (2019). Potential Research Partnership Presentation: Second Heart Project: Enhancing Lower Limb Blood Flow With Intermittent Compression. Meeting with Prof. Azadeh Yadollahi. Toronto, Canada
• (2019). Research Seminar Presentation: Towards Continuous Cuffless Blood Pressure Monitoring Using Machine Learning. Mechanical and Mechatronics Engineering Seminars. Waterloo, Canada
• (2018). Conference Presentation: Rotordynamics Experimental Validation of a Sliding-Blade Architecture for Inside-Out Ceramic Turbines. Turbo Expo 2018, Turbomachinery Technical Conference & Exposition, Presented by the ASME International Gas Turbine Institute. Oslo, Norway
• (2018). Poster Presentation: Towards Continuous Cuffless Blood Pressure Monitoring Using Machine Learning. BioTEC 2018. Waterloo, Canada
• (2014). Conception et validation expérimentale d'un anneau en fibre de carbone sans matrice pour une pièce structurelle du moteur R4E. Séminaire au Laboratoire de Conception d'Actionneur et de Moteur de l'Université de Sherbrooke (CAMUS). Sherbrooke, Canada
• S. Lanfrance, J. Truong, D. Gendron, M. Lapointe, K. Deschênes, J. Paquette. (2014). Revue de conception détaillée du projet OMEGA. Présentation des revues de conception détaillée des projets majeurs de conception de l'Université de Sherbrooke. Sherbrooke, Canada
• (2013). Revue de conception d'un banc d'essai pour la caractérisation du vieillissement prématuré des fluides magnétorhéologiques dans les embrayages MR. Séminaire au Laboratoire de Conception d'Actionneur et de Moteur de l'Université de Sherbrooke (CAMUS):. Sherbrooke, Canada
• S. Lanfrance, J. Truong, D. Gendron, M. Lapointe, K. Deschênes, J. Paquette. (2013). Revue de conception système du projet OMEGA. Présentation des revues de conception système des projets majeurs de conception de l'Université de Sherbrooke. Sherbrooke, Canada
• (2012). Poster Presention: Fabrication of a prototype and Experimental Validation of a Micro Wind Turbine to Power Sensors. ReSMiQ 2012. Montreal, Canada