Gait generation frameworks for humanoid robots typically assume a constant centroidal angular momentum (CAM) throughout the walking cycle, which induces undesirable contact torques in the feet and results in performance degradation. In this work, we present a novel algorithm to learn the CAM online and include the obtained knowledge within the closed-form solutions of the Divergent Component of Motion (DCM) locomotion framework. To ensure a reduction of the contact torques at the desired center of pressure position, a CAM trajectory is generated and explicitly tracked by a whole-body controller. Experiments with the humanoid robot TORO demonstrate that the proposed method substantially increases the maximum step length and walking speed dur...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Inspired by human, humanoid robots has the potential to become a general-purpose platform that lives...
International audienceThis paper proposes solutions to the relative lack of efficiency of walking tr...
Gait generation frameworks for humanoid robots typically assume a constant centroidal angular moment...
To plan dynamic, whole-body motions for robots, one conventionally faces the choice between a comple...
In the future, robots shall be used in many areas to simplify human lives. Human-like robots, which ...
Biomechanical studies have determined that the angular momentum is a privileged quantity in human mo...
When walking at high speeds, the swing legs of robots produce a non-negligible angular momentum rat...
This paper presents a complete trajectory generation and control approach for achieving a robust dyn...
Center Of Mass (COM) trajectory is an essential factor for stable and natural robot locomotion. Unli...
Most humanoid robots walk in an unhuman-like way with bent knees due to the use of the simplified Li...
Abstract — Recent humanoid control investigations have em-phasized the importance of controlling who...
International audienceEstimating the center of mass position and the angular momentum derivative of ...
This paper deals with the problem of planning the Center of Mass (CoM) trajectory of a humanoid robo...
Running and jumping are locomotion modes that allow legged robots to rapidly traverse great distance...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Inspired by human, humanoid robots has the potential to become a general-purpose platform that lives...
International audienceThis paper proposes solutions to the relative lack of efficiency of walking tr...
Gait generation frameworks for humanoid robots typically assume a constant centroidal angular moment...
To plan dynamic, whole-body motions for robots, one conventionally faces the choice between a comple...
In the future, robots shall be used in many areas to simplify human lives. Human-like robots, which ...
Biomechanical studies have determined that the angular momentum is a privileged quantity in human mo...
When walking at high speeds, the swing legs of robots produce a non-negligible angular momentum rat...
This paper presents a complete trajectory generation and control approach for achieving a robust dyn...
Center Of Mass (COM) trajectory is an essential factor for stable and natural robot locomotion. Unli...
Most humanoid robots walk in an unhuman-like way with bent knees due to the use of the simplified Li...
Abstract — Recent humanoid control investigations have em-phasized the importance of controlling who...
International audienceEstimating the center of mass position and the angular momentum derivative of ...
This paper deals with the problem of planning the Center of Mass (CoM) trajectory of a humanoid robo...
Running and jumping are locomotion modes that allow legged robots to rapidly traverse great distance...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Inspired by human, humanoid robots has the potential to become a general-purpose platform that lives...
International audienceThis paper proposes solutions to the relative lack of efficiency of walking tr...