Title :
Functional asymmetry in a five-link 3D bipedal walker
Author :
Gregg, Robert D. ; Dhaher, Yasin ; Lynch, Kevin M.
Author_Institution :
Dept. of Mech. Eng., Northwestern Univ., Evanston, IL, USA
fDate :
Aug. 30 2011-Sept. 3 2011
Abstract :
This paper uses a symmetrical five-link 3D biped model to computationally investigate the cause, function, and benefit of gait asymmetry. We show that for a range of mass distributions, this model has asymmetric walking patterns between the left and right legs, which is due to a phenomenon known as period-doubling bifurcation. The ground reaction forces of each leg reflect different roles, roughly corresponding to support, propulsion, and motion control as proposed by the hypothesis of functional asymmetry in human walking. These results suggest that natural mechanics could be responsible for asymmetry in able-bodied walking, rather than neurophysiological mechanisms such as leg dominance.
Keywords :
bifurcation; biocontrol; gait analysis; physiological models; able-bodied walking; asymmetric walking patterns; five-link 3D bipedal walker; functional asymmetry; gait asymmetry; ground reaction forces; leg dominance; mass distributions; motion control; neurophysiological mechanisms; period-doubling bifurcation; propulsion; support; Bifurcation; Eigenvalues and eigenfunctions; Humans; Legged locomotion; Propulsion; Stability analysis; Three dimensional displays; Computer Simulation; Gait; Humans; Models, Biological; Thermodynamics; Walking;
Conference_Titel :
Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE
Conference_Location :
Boston, MA
Print_ISBN :
978-1-4244-4121-1
Electronic_ISBN :
1557-170X
DOI :
10.1109/IEMBS.2011.6091927
