Title of article
Asymptotically stable biped gait generation based on stability principle of rimless wheel
Author/Authors
Fumihiko Asano and Zhi-Wei Luo، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2009
Pages
10
From page
949
To page
958
Abstract
We investigated and identified the conditions necessary for stable dynamic gait generation in biped robots from the mechanical energy balance point of view. The equilibrium point at impact in a dynamic gait is uniquely determined by two conditions; keeping the restored mechanical energy constant and settling the relative hip-joint angle to the desired value before impact. The generated gait then becomes asymptotically stable around the equilibrium point determined by these conditions. This is shown by a simple recurrence formula of the kinetic energy immediately before impact. We verified this stability theorem using numerical simulation of virtual passive dynamic walking. The results were compared with those for a rimless wheel and an inherent stability principle was derived. Finally, we derived a robust control law using a reference mechanical energy trajectory and demonstrated its effectiveness numerically.
Keywords
Biped robot , Gait generation , asymptotic stability , Mechanical energy balance , Virtual passive dynamic walking
Journal title
Robotica
Serial Year
2009
Journal title
Robotica
Record number
683713
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