Home /Research /Realization of Quadrupedal Quasi-passive Dynamic Walking Driven by Rocking Motion and Motion Analysis based on a Nonholonomic Model
LOCOMOTION

Realization of Quadrupedal Quasi-passive Dynamic Walking Driven by Rocking Motion and Motion Analysis based on a Nonholonomic Model

Takeshi Kibayashi, Yasuhiro Sugimoto, Masato Ishikawa, Koichi Osuka, Yoshiyuki Sankai

Year
2013
Citations
2
Access
Open access

Abstract

In this paper, a quadrupedal quasi-passive dynamic walking robot driven by a rocking motion has been investigated. Experimental results show that the robot can walk on the level ground and that a walking speed is related to a period and a phase difference of the rocking motion. Through investigation of a shape of soles, we revealed Duke has a nonholonomic constraint that is comparable to that of a kinematic model of “two-wheeled mobile robot” on its sole. As a result of analyses based on the nonlinear control theory, we conclude that the sole shape contributes to a transition of walking speed accompanying with change of the phase difference.

Keywords

Nonholonomic systemQuadrupedalismKinematicsControl theory (sociology)Motion (physics)Constraint (computer-aided design)RobotRealization (probability)Computer scienceMobile robot

Related papers

Browse all LOCOMOTION papers