Add to ORKGThis paper proposes an analysis of the effect of vertical position of the pivot point of the inverted pendulum during humanoid walking. We introduce a new feature of the inverted pendulum by taking a pivot point under the ground level allowing a natural trajectory for the center of pressure (CoP), like in human walking. The influence of the vertical position of the pivot point on energy consumption is analyzed here. The evaluation of a 3D Walking gait is based on the energy consumption. A sthenic criterion is used to depict this evaluation. A consequent reduction of joint torques is shown with a pivot point under the ground
This paper presents a method of momentum compensation around the perpendicular axis of the stance fo...
Walking can be modeled as a motion whereby the center of mass (COM) moves over the stance leg, simil...
The present communication is a follow up and extension of the paper “The Spherical Inverted Pendulum...
International audienceThis paper proposes an analysis of the effect of vertical position of the pivo...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
International audienceThis paper proposes an analysis of the effect of vertical position of the pivo...
This thesis fits in the area of trajectory generationfor humanoid walking. It aims to improve the en...
This thesis fits in the area of trajectory generationfor humanoid walking. It aims to improve the en...
International audienceThis paper proposes an analysis of the effect of vertical motion of the CoM du...
International audienceActual control of most humanoid robots is based on the 3D linear inverted pend...
International audienceThis paper compares different inverted pendulum models to represent the stance...
The gait of humans is often assumed to be the most energy efficient way of walking. Srinivasan and R...
For stable bipedal gait generation on the level floor, efficient restoring of mechanical energy lost...
This paper presents a method of momentum compensation around the perpendicular axis of the stance fo...
Walking can be modeled as a motion whereby the center of mass (COM) moves over the stance leg, simil...
The present communication is a follow up and extension of the paper “The Spherical Inverted Pendulum...
International audienceThis paper proposes an analysis of the effect of vertical position of the pivo...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
This paper proposes an analysis of the effect of vertical position of the pivot point of the inverte...
International audienceThis paper proposes an analysis of the effect of vertical position of the pivo...
This thesis fits in the area of trajectory generationfor humanoid walking. It aims to improve the en...
This thesis fits in the area of trajectory generationfor humanoid walking. It aims to improve the en...
International audienceThis paper proposes an analysis of the effect of vertical motion of the CoM du...
International audienceActual control of most humanoid robots is based on the 3D linear inverted pend...
International audienceThis paper compares different inverted pendulum models to represent the stance...
The gait of humans is often assumed to be the most energy efficient way of walking. Srinivasan and R...
For stable bipedal gait generation on the level floor, efficient restoring of mechanical energy lost...
This paper presents a method of momentum compensation around the perpendicular axis of the stance fo...
Walking can be modeled as a motion whereby the center of mass (COM) moves over the stance leg, simil...
The present communication is a follow up and extension of the paper “The Spherical Inverted Pendulum...