Kaito Hara-Lee
Co-Captain at Queen's Biomedical Innovation Team- Claim this Profile
Click to upgrade to our gold package
for the full feature experience.
-
Japanese Professional working proficiency
Topline Score
Bio
0
/5.0 / Based on 0 ratingsFilter reviews by:
Credentials
-
Student Leader in Experiential Learning
Queen's University - Faculty of Engineering and Applied ScienceMay, 2023- Sep, 2024 -
Standard First Aid and CPR-C Certified
Lifesaving Society OntarioJul, 2022- Sep, 2024
Experience
-
Queen's Biomedical Innovation Team
-
Canada
-
Medical Equipment Manufacturing
-
1 - 100 Employee
-
Co-Captain
-
May 2023 - Present
-
-
-
-
Logistics Coordinator
-
May 2023 - Present
-
-
-
Queen's University - Faculty of Engineering and Applied Science
-
Canada
-
Higher Education
-
100 - 200 Employee
-
Lab Technician - Skeletal Observation Laboratory
-
May 2022 - Aug 2023
Supervisor - Michael J Rainbow, PhD Responsibilities • Operate and maintain the laboratory software and hardware infrastructure. o Equipment Biplanar Videoradiography System Qualisys Marker-Based Motion Capture System (Oqus) Qualisys Markerless Motion Capture System (Miqus) Curvebeam Line-Up Weight Bearing CT AMTI Optima Strain Gauge Force Plates HTC Vive VR system 1080 Quantum Variable Inertia Machines o Software Mimics Innovation Suite (Materialise) Qualisys Track Manager Photron High-Speed Camera Software Unity XMA Lab (calibration and undistortion software) Autoscoper (2D to 3D scientific rotoscoping software) • Assist graduate students with their research studies o Helped conduct a 40-participant study to investigate the effect of bone shape and joint mobility on ankle joint mechanics o Helped conduct a study to investigate the impact of VR on shoulder movement variability o Will help conduct a study to investigate the behaviour of the torque-velocity relationships of the individual articulations within the shoulder complex • Maintain the laboratory website • In Vivo and In Vitro Testing • Document workflows Key Projects • SlicerAutoscoperM Project (funded by an NIH R01): Active member of the developer team whose goal is to integrate Autoscoper into the Kitware 3D Slicer ecosystem. Currently testing the performance of particle swarm optimizer to track foot and knee bones • Wrist Project: Collaborative Project with Orthopaedics. This project aims to develop a cadaveric wrist simulator that integrates with optical motion capture and biplanar videoradiography to investigate fundamental wrist mechanics and evaluate the effects of injury and surgical interventions. I am working on validating a method to register bone surface files from a CT scan with the Qualisys optical motion capture system so that the simulator can directly track the radius and third metacarpal. Show less
-
-
-
Engineering Society of Queen's University
-
Canada
-
Education Administration Programs
-
1 - 100 Employee
-
Integrated Learning Centre Constable
-
Sep 2021 - Apr 2022
-
-
-
Queen's Student Diversity Project
-
Canada
-
Non-profit Organization Management
-
1 - 100 Employee
-
Event Coordinator
-
May 2021 - Apr 2022
-
-
-
-
Project Manager
-
May 2021 - Apr 2022
-
-
General Member
-
Sep 2020 - Apr 2021
-
-
-
GDSC Queen's
-
Non-profit Organizations
-
1 - 100 Employee
-
Operations Lead
-
May 2021 - Apr 2022
-
-
-
Sunnybrook
-
Canada
-
Hospitals and Health Care
-
700 & Above Employee
-
Summer Student, Biomarker Imaging Research Lab
-
May 2021 - Aug 2021
Supervisor - James Mainprize, PhD and Martin Yaffe, PhD • My project was to develop a scanning X-ray spectrometer with a motor control • The motor control system consisted of X and Y stepper motors, allowing more flexibility with sample scans • Qt Creator was used to develop a GUI and an Arduino was used as the microcontroller that connected the GUI to the stepper motors • Provided weekly progress presentations in front of professional engineers and doctors Supervisor - James Mainprize, PhD and Martin Yaffe, PhD • My project was to develop a scanning X-ray spectrometer with a motor control • The motor control system consisted of X and Y stepper motors, allowing more flexibility with sample scans • Qt Creator was used to develop a GUI and an Arduino was used as the microcontroller that connected the GUI to the stepper motors • Provided weekly progress presentations in front of professional engineers and doctors
-
-
-
Queen's Athletics & Recreation
-
Canada
-
Recreational Facilities
-
1 - 100 Employee
-
Match Official/Supervisor
-
Nov 2020 - May 2021
-
-
-
Dream Cyclery
-
Canada
-
Retail
-
1 - 100 Employee
-
Sales Associate
-
May 2020 - Aug 2020
-
-
-
ZMP Inc.
-
Japan
-
Research
-
1 - 100 Employee
-
Intern
-
Oct 2016 - Aug 2018
-
-
Education
-
Queen's University - Faculty of Engineering and Applied Science
Bachelor of Applied Science - BASc, Applied Mathematics and Engineering