Torque Parameters
In simulation models of sports movements representations of the ability to generate torque around joints are required. These articles describe methods of determining subject-specific joint torque parameters.
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Torque-angular velocity surface function |
Publications
- Lewis, M.G.C, Yeadon, M.R., King, M.A. (in press). The effect of accounting for biarticularity in hip flexor and hip extensor joint torque representations. Human Movement Science. doi:10.1016/j.humov.2017.09.016.
- Conceicao, F., King, M.A., Yeadon, M.R. and Lewis, M.G.C. and Forrester, S.E. 2012. An isovelocity dynamometer method to determine mono-articular and bi-articular muscle parameters. Journal of Applied Biomechanics 28, 751-760.
- Lewis, Martin G.C., King, Mark A., Yeadon, Maurice R., Conceicao, Filipe, 2012. Are joint torque models limited by an assumption of monoarticularity? Journal of Applied Biomechanics, 28 (5), pp. 520 - 529.
- King, M.A., Lewis, M.G.C. and Yeadon, M.R. 2012. Is it necessary to include biarticular effects within joint torque representations of knee flexion and knee extension? Computational Engineering 10, 117-130.
- Forrester, S.E., Yeadon, M.R., King, M.A. and Pain, M.T.G. 2011. Comparing different approaches for determining joint torque parameters from isovelocity dynamometer measurements. Journal of Biomechanics 44, 955-961.
- King, M.A., Kong, P.W., and Yeadon, M.R. 2009. Determining effective subject-specific strength levels for forward dives using computer simulations of recorded performances. Journal of Biomechanics 42, 2672-2677.
- Yeadon. M.R., King, M.A. and Wilson, C. 2006. Modelling the maximum voluntary joint torque / angular velocity relationship in human movement. Journal of Biomechanics, 39, 476-482.
- King, M.A. and Yeadon, M.R. 2002. Determining subject specific torque parameters for use in a torque driven simulation model of dynamic jumping. Journal of Applied Biomechanics 18, 207-217.
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