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Basics
| Name | Ke Ding |
| Label | Graduate Research Assistant |
| ding.547@buckeyemail.osu.edu | |
| Phone | (614) 214-8615 |
| Url | https://ding547.github.io |
| Summary | An ambitious individual with expertise in Biomechanics and Ergonomics, boasting a distinguished academic journey from The Ohio State University culminating in a Ph.D. in Integrated Systems Engineering |
Work
- 2023.01 - 2028.12
Graduate Research Assistant
The Ohio State University
Investigated the use of motion characteristics to differentiate between individuals who are performing a sincere effort from those who are exaggerating their condition or pain.
- Lumbar Motion Monitor, IMU sensors
Volunteer
- 2024.03 - 2024.03
Session Chair
38th Annual Edward F. Hays Advanced Research Forum
Organized and led the postdoc group sessions for the Arts/Humanities/Social Science category at the 36th Edward F. Hays Graduate Research Forum.
- Ensured smooth and efficient operation of the session, including managing time constraints and resolving any logistical issues.
Education
-
2023.01 - 2028.12 Columbus, Ohio
PhD
The Ohio State University, Columbus, Ohio
Human Factor and Ergonomic
- Risk Assessment Tools for Occupational Musculoskeletal Disorders
- Ergonomics in the Product Design Process
- Principles of Occupational Biomechanics and Ergonomics
Awards
- 2020.2022
Dean's List Recognition
The Ohio State University
Recognition for academic excellence as a Dean's List awardee for three consecutive years at The Ohio State University.
Certificates
| Certified SOLIDWORKS Professional (CSWP) | ||
| SOLIDWORKS | 2020-06 |
Publications
-
N/A -
2022.11 Modeling the Effects of Hydration on Viscoelastic Properties of Nucleus Pulposus Tissue in Shear and Compression using the Fractional Zener Model.
2023 ORS Annual Meeting, and ORS PSRS 5th International Spine Research Symposium.
Explored DNA origami sensor function to see if it is affected by hydrostatic pressure; analyzed the capability of DNA origami sensors to discern spatial changes in ion concentration inside a microfluidic device- generated ion gradient.
Skills
| Engineering | |
| CATIA and LS-DYNA, Certified SOLIDWORKS Professional (CSWP) | |
| MATLAB, Python | |
| AutoCAD, Autodesk 3ds Max | |
| OptiTrack motion capture systems | |
| Lumber Motion Monitor | |
| Rheometer |
Languages
| Chinese | |
| Native speaker |
| English | |
| Fluent |
Interests
| Ergonomic | |
| Low back pain | |
| Spine | |
| Human factor | |
| Lumbar motion | |
| Occupational biomechanics | |
| Biomedical Microdevice |
References
| Professor William S. Marras, PhD, CPE | |
| Distinguished University Professor, Executive Director - SRI, SRI-Ergo, Scientific Director - SRI, Professor - Integrated Systems Engineering, Professor - Neurological Surgery, Professor - Orthopaedics, Professor - Physical Medicine & Rehabilitation |
| Professor Gregory G. Knapik, PhD | |
| Assistant Director - SRI, Biodynamics Laboratory Research Coordinator - Integrated Systems Engineering |
Projects
- 2024.02 - 2024.12
Efficacy Assessment of Endoscopic Procedure Engineering Control
Mitigate work-related musculoskeletal disorders (WRMSD) in gastroenterologists by evaluating the effectiveness of a novel intervention - a strap designed to support the left hand during endoscopic procedures.
- Work-related Musculoskeletal Disorders
- Endoscopic Procedure Ergonomics
- Support Strap Efficacy Evaluation