Machine Learning in Biomechanics: Key Applications and Limitations in Walking, Running, and Sports Movements
Dindorf, Carlo, Horst, Fabian, Slijepčević, Djordje, Dumphart, Bernhard, Dully, Jonas, Zeppelzauer, Matthias, Horsak, Brian, Fröhlich, Michael
–arXiv.org Artificial Intelligence
This chapter provides an overview of recent and promising Machine Learning applications, i.e. pose estimation, feature estimation, event detection, data exploration & clustering, and automated classification, in gait (walking and running) and sports biomechanics. It explores the potential of Machine Learning methods to address challenges in biomechanical workflows, highlights central limitations, i.e. data and annotation availability and explainability, that need to be addressed, and emphasises the importance of interdisciplinary approaches for fully harnessing the potential of Machine Learning in gait and sports biomechanics.
arXiv.org Artificial Intelligence
Mar-5-2025
- Country:
- Asia
- Middle East > Jordan (0.04)
- Russia (0.04)
- Europe
- Austria > Lower Austria (0.04)
- Germany
- Rheinland-Pfalz > Mainz (0.04)
- Rhineland-Palatinate > Kaiserslautern (0.04)
- Saxony > Leipzig (0.04)
- Russia > Central Federal District
- Moscow Oblast > Moscow (0.04)
- North America
- Canada > Ontario
- Kingston (0.04)
- United States
- Florida > Palm Beach County
- Boca Raton (0.04)
- Kansas > Johnson County
- Overland Park (0.04)
- New Jersey > Hudson County
- Hoboken (0.04)
- New York > New York County
- New York City (0.14)
- Florida > Palm Beach County
- Canada > Ontario
- South America > Chile
- Asia
- Genre:
- Overview (1.00)
- Research Report
- Experimental Study (0.45)
- New Finding (0.67)
- Industry:
- Health & Medicine
- Consumer Health (1.00)
- Health Care Technology (1.00)
- Therapeutic Area
- Musculoskeletal (1.00)
- Neurology > Parkinson's Disease (0.67)
- Leisure & Entertainment > Sports
- Running (0.67)
- Health & Medicine
- Technology: