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Dynamic walking stability of the TUlip robot by means of the extrapolated center of mass

W.M. Bouwman, Gijs van Oort, Edwin Dertien, Johannes F. Broenink, Raffaella Carloni

Year
2010
Citations
3
Access
Open access

Abstract

The TUlip robot was created to participate in the teensize league of Robocup. The TUlip robot is a bipedal robot intended for dynamic walking. It has six degrees of freedom for each leg: three for the hip, one for the knee and two for the ankle. This paper elaborates on the algorithm for the sideways control during gait. The algorithm uses the extrapolated center of mass (XcoM) to achieve limit cycle stabil-ity. The algorithm is tested in simulation using a linear inverted pendulum and, then, experimentally applied to the TUlip robot. The result is an adaptive behavior of the TUlip robot, promising for future application to legged robot stability.

Keywords

RobotInverted pendulumControl theory (sociology)Robot kinematicsComputer scienceStability (learning theory)SimulationRobot controlLimit cycleCenter of mass (relativistic)

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