Experience

Heart Force Medical Inc.

• Canada
• Medical Equipment Manufacturing
• 1 - 100 Employee

• AI and Algorithm Design Lead

  • Mar 2019 - Present

• Research Lead

  • Mar 2017 - Mar 2019



The University of British Columbia

• Canada
• Higher Education
• 700 & Above Employee

• Research Assistant

  • Jun 2012 - Mar 2019



LionsGate Technologies, Inc. (LGThealth)

• Research And Development Intern

  • Aug 2016 - Mar 2017

  Title of Project:Vital signs monitoring at home using the pulse oximeter utilizing analog sensors on a mobile device The purpose of this project is to develop new algorithms for extracting heart rate, heart rate variability, instantaneous respiratory rate, and arterial and venous oxygenation from photoplethysmogram recorded on a smart phone pulse oximeter. The oximeter is designed and manufactured by LionsGate Technologies (LGTmedical). Title of Project:Vital signs monitoring at home using the pulse oximeter utilizing analog sensors on a mobile device The purpose of this project is to develop new algorithms for extracting heart rate, heart rate variability, instantaneous respiratory rate, and arterial and venous oxygenation from photoplethysmogram recorded on a smart phone pulse oximeter. The oximeter is designed and manufactured by LionsGate Technologies (LGTmedical).



LionsGate Technologies, Inc. (LGTmedical)

• Research Internship

  • Sep 2015 - Apr 2016

  Title of project: Sleep Apnea Screening Algorithms for Pulse Oximetry Utilizing Analog Sensors on a Mobile Device The purpose of this study is to develop new algorithms for monitoring obstructive sleep apnea at home by processing the pulse oximetry signal recorded using analog sensors on mobile devices such as smartphones. This solution will help physicians estimate the probability of obstructive sleep apnea before referring a patient for sleep test, reducing wait times and improving care… Show more Title of project: Sleep Apnea Screening Algorithms for Pulse Oximetry Utilizing Analog Sensors on a Mobile Device The purpose of this study is to develop new algorithms for monitoring obstructive sleep apnea at home by processing the pulse oximetry signal recorded using analog sensors on mobile devices such as smartphones. This solution will help physicians estimate the probability of obstructive sleep apnea before referring a patient for sleep test, reducing wait times and improving care for patients with severe sleep apnea. Additionally, this approach can be employed for post-diagnosis monitoring at home over multiple nights to ensure adequacy of treatment and compliance. Show less Title of project: Sleep Apnea Screening Algorithms for Pulse Oximetry Utilizing Analog Sensors on a Mobile Device The purpose of this study is to develop new algorithms for monitoring obstructive sleep apnea at home by processing the pulse oximetry signal recorded using analog sensors on mobile devices such as smartphones. This solution will help physicians estimate the probability of obstructive sleep apnea before referring a patient for sleep test, reducing wait times and improving care… Show more Title of project: Sleep Apnea Screening Algorithms for Pulse Oximetry Utilizing Analog Sensors on a Mobile Device The purpose of this study is to develop new algorithms for monitoring obstructive sleep apnea at home by processing the pulse oximetry signal recorded using analog sensors on mobile devices such as smartphones. This solution will help physicians estimate the probability of obstructive sleep apnea before referring a patient for sleep test, reducing wait times and improving care for patients with severe sleep apnea. Additionally, this approach can be employed for post-diagnosis monitoring at home over multiple nights to ensure adequacy of treatment and compliance. Show less