This thesis deals with the problem of humanoid falling with a decoupled strategy consisting of a pre-impactand a post-impact stages. In the pre-impact stage, geometrical reasoning allows the robot to choose appropriateimpact points in the surrounding environment –that can be unstructured and may contain cluttered obstacles,and to adopt a posture to reach them while avoiding impact singularities and preparing for the post-impact. Thepost-impact stage uses a quadratic program controller that adapts on-line the joint proportional-derivative (PD)gains to make the robot compliant, i.e. to absorb post-impact dynamics, which lowers possible damage risks.We propose a new approach incorporating the stiffness and damping gains directly as decision va...
National audienceIf the idea of human-shaped robots is several centuries old and if humanoid robots ...
National audienceHumanoid robotics has been a very active field of research for the past decades, wi...
Cette thèse propose une approche pour générer un mouvement corps complet avec contacts non coplanair...
International audienceWe address the problem of humanoid falling with a decoupled strategy consistin...
International audienceWe consider control of a humanoid robot in active compliance just after the im...
The problem of this thesis concerns the control of the movements and the equilibrium of humanoid rob...
The aim of the project is to design an active controller for the safe falling of a humanoid robot. T...
This thesis aims at providing a solution to the problem of motion generation for humanoid robots. Th...
— We propose a reduced-model-based analytic approach to active shock absorption by a falling humanoi...
Falls are a common risk and impose severe threats to both humans and humanoid robots as a product of...
This thesis focuses on realization of tasks with locomotion on humanoid robots. Thanks to their nume...
This work focuses on two challenging tasks for humanoid robots: bipedal balance and collision avoida...
La problématique traitée dans cette thèse concerne la commande et l'équilibre des robots humanoïdes ...
Summary proposal: Although there seems to be a consensus on the consequences of arm swing in human w...
Humanoid robots in any environment are likely to experience collisions with obstacles or imbalance w...
National audienceIf the idea of human-shaped robots is several centuries old and if humanoid robots ...
National audienceHumanoid robotics has been a very active field of research for the past decades, wi...
Cette thèse propose une approche pour générer un mouvement corps complet avec contacts non coplanair...
International audienceWe address the problem of humanoid falling with a decoupled strategy consistin...
International audienceWe consider control of a humanoid robot in active compliance just after the im...
The problem of this thesis concerns the control of the movements and the equilibrium of humanoid rob...
The aim of the project is to design an active controller for the safe falling of a humanoid robot. T...
This thesis aims at providing a solution to the problem of motion generation for humanoid robots. Th...
— We propose a reduced-model-based analytic approach to active shock absorption by a falling humanoi...
Falls are a common risk and impose severe threats to both humans and humanoid robots as a product of...
This thesis focuses on realization of tasks with locomotion on humanoid robots. Thanks to their nume...
This work focuses on two challenging tasks for humanoid robots: bipedal balance and collision avoida...
La problématique traitée dans cette thèse concerne la commande et l'équilibre des robots humanoïdes ...
Summary proposal: Although there seems to be a consensus on the consequences of arm swing in human w...
Humanoid robots in any environment are likely to experience collisions with obstacles or imbalance w...
National audienceIf the idea of human-shaped robots is several centuries old and if humanoid robots ...
National audienceHumanoid robotics has been a very active field of research for the past decades, wi...
Cette thèse propose une approche pour générer un mouvement corps complet avec contacts non coplanair...