This work explores the use of an industry-oriented digital human modelling tool for the estimation of the musculoskeletal loads corresponding to a simulated human activity. The error in using a static analysis tool for measuring articulations loads under not-static conditions is assessed with reference to an accurate dynamic model and data from real experiments. Results show that, for slow movements; static analysis tools provide good approximation of the actual loads affecting human musculoskeletal system during walking.
Digital human models for gait analysis: experimental validation of static force analysis tools under dynamic conditions / Caporaso, T.; Di Gironimo, G.; Tarallo, A.; De Martino, G.; Di Ludovico, M.; Lanzotti, A.. - (2017), pp. 479-488. (Intervento presentato al convegno International Joint Conference on Mechanics, Design Engineering and Advanced Manufacturing (JCM) tenutosi a Catania, ITALY nel SEP 14-16, 2016) [10.1007/978-3-319-45781-9_48].
Digital human models for gait analysis: experimental validation of static force analysis tools under dynamic conditions
Caporaso, T.;Di Gironimo, G.;Tarallo, A.;Di Ludovico, M.;Lanzotti, A.
2017
Abstract
This work explores the use of an industry-oriented digital human modelling tool for the estimation of the musculoskeletal loads corresponding to a simulated human activity. The error in using a static analysis tool for measuring articulations loads under not-static conditions is assessed with reference to an accurate dynamic model and data from real experiments. Results show that, for slow movements; static analysis tools provide good approximation of the actual loads affecting human musculoskeletal system during walking.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.