Journal article
Direct Methods for Predicting Movement Biomechanics Based Upon Optimal Control Theory with Implementation in OpenSim
S Porsa, YC Lin, MG Pandy
Annals of Biomedical Engineering | Published : 2016
Abstract
The aim of this study was to compare the computational performances of two direct methods for solving large-scale, nonlinear, optimal control problems in human movement. Direct shooting and direct collocation were implemented on an 8-segment, 48-muscle model of the body (24 muscles on each side) to compute the optimal control solution for maximum-height jumping. Both algorithms were executed on a freely-available musculoskeletal modeling platform called OpenSim. Direct collocation converged to essentially the same optimal solution up to 249 times faster than direct shooting when the same initial guess was assumed (3.4 h of CPU time for direct collocation vs. 35.3 days for direct shooting). T..
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Funding Acknowledgements
This work was supported by a VESKI Innovation Fellowship awarded to MGP. A University of Melbourne Postgraduate Scholarship to SP is also gratefully acknowledged.