Facial reconstruction

Search LJMU Research Online

Browse Repository | Browse E-Theses

Items where Author is "Verheul, J"

Up a level
Export as [feed] RSS
Group by: Item Type | No Grouping
Jump to: Article | Thesis
Number of items: 10.

Article

Johnson, WR, Mian, A, Robinson, MA, Verheul, J, Lloyd, DG and Alderson, JA (2020) Multidimensional ground reaction forces and moments from wearable sensor accelerations via deep learning. IEEE Transactions on Biomedical Engineering, 68 (1). 289 - 297. ISSN 0018-9294

Verheul, J, Nedergaard, NJ, Vanrenterghem, J and Robinson, MA (2020) Measuring biomechanical loads in team sports – from lab to field. Science and Medicine in Football. ISSN 2473-3938

Verheul, J (2019) Biomechanical loads in running-based sports: estimating ground reaction forces from segmental accelerations (PhD Academy Award). British Journal of Sports Medicine. ISSN 1473-0480

Verheul, J, Warmenhoven, J, Lisboa, P, Gregson, W, Vanrenterghem, J and Robinson, MA (2019) Identifying generalised segmental acceleration patterns that contribute to ground reaction force features across different running tasks. Journal of Science and Medicine in Sport. ISSN 1878-1861

Verheul, J, Nedergaard, NJ, Pogson, MA, Lisboa, P, Gregson, W, Vanrenterghem, J and Robinson, MA (2019) Biomechanical loading during running: can a two mass-spring-damper model be used to evaluate ground reaction forces for high-intensity tasks? Sports Biomechanics. ISSN 1752-6116

Verheul, J, Gregson, W, Lisboa, P, Vanrenterghem, J and Robinson, MA (2018) Whole-body biomechanical load in running-based sports: the validity of estimating ground reaction forces from segmental. Journal of Science and Medicine in Sport. ISSN 1440-2440

Nedergaard, NJ, Verheul, J, Drust, B, Etchells, T, Lisboa, P, Robinson, MA and Vanrenterghem, J (2018) The feasibility of predicting ground reaction forces during running from a trunk accelerometry driven mass-spring-damper model. PeerJ. ISSN 2167-8359

Verheul, J, Clansey, AC and Lake, MJ (2017) Adjustments with running speed reveal neuromuscular adaptations during landing associated with high mileage running training. Journal of Applied Physiology (1985), 122 (3). ISSN 8750-7587

Pogson, MA, Verheul, J, Robinson, MA, Vanrenterghem, J and Lisboa, P A neural network method to predict task- and step-specific ground reaction force magnitudes from trunk accelerations during running activities. Medical Engineering and Physics. ISSN 1350-4533 (Accepted)

Thesis

Verheul, J (2019) Biomechanical loads in running-based sports: estimating ground reaction forces from segmental accelerations. Doctoral thesis, Liverpool John Moores University.

This list was generated on Wed Dec 8 21:51:55 2021 UTC.