2007-01-2489: Optimization-based Dynamic Human Walking Prediction - Technical Paper

Event: 2007 Digital Human Modeling Conference

Authors

Abstract

Content: In this study, an optimization-based approach for simulating the walking motion of a digital human model is presented. A spatial skeletal model having 55 degrees of freedom is used to demonstrate the approach. Design variables are the joint angle profiles. Walking motion is generated by minimizing the mechanical energy subjected to basic physical and kinematical constraints. A formulation for symmetric and periodic normal walking is developed and results are presented. Backpack and ground reaction forces are taken into account in the current formulation, and the effects of the backpack on normal walking are discussed.

Meta Tags

Topics: Kinematics

Affiliated or Co-Author: The University of Iowa
U.S. Army Soldier Center

Details

DOI: https://doi.org/10.4271/2007-01-2489

Pages: 11

Citation: Xiang, Y., Chung, H., Mathai, A., Rahmatalla, S. et al., "Optimization-based Dynamic Human Walking Prediction," SAE Technical Paper 2007-01-2489, 2007, https://doi.org/10.4271/2007-01-2489.

Additional Details

Publisher: SAE International

Published: Jun 12, 2007

Product Code: 2007-01-2489

Content Type: Technical Paper

Language: English