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Interests

Justin obtained his BSc and MSc in the department of Kinesiology and Health Sciences at the University of À¶Ý®ÊÓƵ. His research has an emphasis on improving digital human modelling approaches in the automotive and military sectors. He also has broader interests in lifting performance / safety, and muscular fatigue development in the workplace.

Research Highlights

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• Davidson, J. B., Joshua, G. A., & Fischer, S. L. (2022). Improving optimization-based human-in-the-design-loop simulation: Optimal objective function weighting configurations to predict lifting postures under unfatigued and fatigued states. Human Factors. (Accepted).
• Davidson, J. B., Joshua, G. A., & Fischer, S. L. (2022). A response surface methodology to determine the optimal objective function weightings within a multi-objective optimization digital human model used to predict postures. Computer Methods in Biomechanics and Biomedical Engineering. .
• Veerasammy, S., Davidson, J. B., & Fischer S. L. (2022).ÌýMulti-task exposure assessment to infer musculoskeletal disorder risk: A scoping review of injury causation theories and tools available to assess exposures. Applied Ergonomics.Ìý.Ìý
• Clusiault, D., Davidson, J. B., Armstrong, D. P., & Fischer, S. L. (2022). The Influence of Sex and Strength Capacity on Normalized Low-Back Exposure During Lifting: Insights from a Joint Power Analysis. Applied Ergonomics. .
• Davidson, J. B., Graham, R. B., Beck, S., Marler, R. T., & Fischer, S. L. (2021). Improving human-in-the-loop simulation to optimize soldier-systems integration. Applied Ergonomics. .