Journal article

Application of high-performance computing to numerical simulation of human movement

FC Anderson, JM Ziegler, MG Pandy, RT Whalen

Journal of Biomechanical Engineering | ASME-AMER SOC MECHANICAL ENG | Published : 1995

Abstract

We have examined the feasibility of using massively-parallel and vector-processing supercomputers to solve large-scale optimization problems for human movement. Specifically, we compared the computational expense of determining the optimal controls for the single support phase of gait using a conventional serial machine (SGI Iris 4D25), a MIMD parallel machine (Intel iPSC/860), and a parallel-vector-processing machine (Cray Y-MP 8/864). With the human body modeled as a 14 degree-offreedom linkage actuated by 46 musculotendinous units, computation of the optimal controls for gait could take up to 3 months of CPU time on the Iris. Both the Cray and the Intel are able to reduce this time to pra..

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University of Melbourne Researchers