The range of motions that humanoid robots are able to realize is strongly limited by inherent dynamical constraints so that any control law that does not consider these limitations, in one way or another, will fail to avoid falling. The Model Predictive Control (MPC) technique is capable of handling constraints on the state and the control explicitly, which makes it highly apt for the control of walking robots.We begin by unveiling the specific structure of these constraints, stressing especially the impor- tance of the supports on the ground. We give thereupon a sufficient condition for keeping balance and formulate an MPC law that complies with it. This formulation serves us then for the design of practicable controllers capable of more e...
The problem of this thesis concerns the control of the movements and the equilibrium of humanoid rob...
International audienceWe demonstrate how the MPC sheme for the generation of stable bipedal walking ...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
The range of motions that humanoid robots are able to realize is strongly limited by inherent dynami...
L'étendue des mouvements que les robots humanoïdes peuvent réaliser est fortement limitée par de...
Walking robots exhibit a structural instability, due to dynamical constraints which strongly narrow ...
Un des plus grands défis dans la commande des robots est de combler l'écart entre la capacité de mou...
National audienceIn this thesis, we are interested in the control of walking robots. Controlling the...
The work presented in this dissertation is mostly concerned with the problem of controlling robots. ...
Les robots humanoïdes sont en passe d'être commercialisés pour le public à grande échelle, mais pour...
Recent improvements in the actuators and the control methods allow the production of humanoid robots...
La problématique traitée dans cette thèse concerne la commande et l'équilibre des robots humanoïdes ...
This paper presents a Model Predictive Control (MPC) scheme capable of generating a 3D gait for a hu...
Research on humanoid robots has made significant progress in recent years, and Model Predictive Cont...
Dans cette thèse, on s’intéresse à la commande des robots marcheurs. Contrôler ces systèmes naturell...
The problem of this thesis concerns the control of the movements and the equilibrium of humanoid rob...
International audienceWe demonstrate how the MPC sheme for the generation of stable bipedal walking ...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
The range of motions that humanoid robots are able to realize is strongly limited by inherent dynami...
L'étendue des mouvements que les robots humanoïdes peuvent réaliser est fortement limitée par de...
Walking robots exhibit a structural instability, due to dynamical constraints which strongly narrow ...
Un des plus grands défis dans la commande des robots est de combler l'écart entre la capacité de mou...
National audienceIn this thesis, we are interested in the control of walking robots. Controlling the...
The work presented in this dissertation is mostly concerned with the problem of controlling robots. ...
Les robots humanoïdes sont en passe d'être commercialisés pour le public à grande échelle, mais pour...
Recent improvements in the actuators and the control methods allow the production of humanoid robots...
La problématique traitée dans cette thèse concerne la commande et l'équilibre des robots humanoïdes ...
This paper presents a Model Predictive Control (MPC) scheme capable of generating a 3D gait for a hu...
Research on humanoid robots has made significant progress in recent years, and Model Predictive Cont...
Dans cette thèse, on s’intéresse à la commande des robots marcheurs. Contrôler ces systèmes naturell...
The problem of this thesis concerns the control of the movements and the equilibrium of humanoid rob...
International audienceWe demonstrate how the MPC sheme for the generation of stable bipedal walking ...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...