In this paper, we demonstrate methods for bipedal walking control based on the Capture Point (CP) methodology. In particular, we introduce a method to intuitively derive a CP reference trajectory from the next three steps and extend the linear inverted pendulum (LIP) based CP tracking controller introduced in [1], generalizing it to a model that contains vertical CoM motions and changes in angular momentum. Respecting the dynamics of general multibody systems, we propose a measurement-based compensation of multi-body effects, which leads to a stable closed-loop dynamics of bipedal walking robots. In addition we propose a ZMP projection method, which prevents the robots feet from tilting and ensures the best feasible CP tracking. The...
International audienceConsider a biped evolving in the sagittal plane. The unexpected rotation of th...
Abstract — In order to engage in useful activities upright legged creatures must be able to maintain...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...
International audienceConsidering a reduced center-of-mass model for bipedal walking, by utilizing t...
This paper proposes a capture-point based reactive omnidirectional controller for bipedal locomotion...
In this paper, we extend the Divergent Component of Motion (DCM, also called 'Capture Point&apo...
When walking at high speeds, the swing legs of robots produce a non-negligible angular momentum rat...
We discuss balance, walking, and push recovery control of the Yobotics-IHMC biped. The robot is a tw...
We present a new walking controller based on 3LP, a 3D model of bipedal walking that is composed of ...
Biped walking control for humanoid robots has been a challenging yet promising research topic in the...
There are many good reason for the development of a robust bipedal walking robot. However, until rec...
We present a new walking foot-placement controller based on 3LP, a 3D model of bipedal walking that ...
Biped robot locomotion has been studied intensively for many decades, and one of the most challengin...
AbstractA stable walking motion requires effective gait balancing and robust posture correction algo...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
International audienceConsider a biped evolving in the sagittal plane. The unexpected rotation of th...
Abstract — In order to engage in useful activities upright legged creatures must be able to maintain...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...
International audienceConsidering a reduced center-of-mass model for bipedal walking, by utilizing t...
This paper proposes a capture-point based reactive omnidirectional controller for bipedal locomotion...
In this paper, we extend the Divergent Component of Motion (DCM, also called 'Capture Point&apo...
When walking at high speeds, the swing legs of robots produce a non-negligible angular momentum rat...
We discuss balance, walking, and push recovery control of the Yobotics-IHMC biped. The robot is a tw...
We present a new walking controller based on 3LP, a 3D model of bipedal walking that is composed of ...
Biped walking control for humanoid robots has been a challenging yet promising research topic in the...
There are many good reason for the development of a robust bipedal walking robot. However, until rec...
We present a new walking foot-placement controller based on 3LP, a 3D model of bipedal walking that ...
Biped robot locomotion has been studied intensively for many decades, and one of the most challengin...
AbstractA stable walking motion requires effective gait balancing and robust posture correction algo...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
International audienceConsider a biped evolving in the sagittal plane. The unexpected rotation of th...
Abstract — In order to engage in useful activities upright legged creatures must be able to maintain...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...