Add to ORKGInternational audienceProvably asymptotically stable running gaits are developed for the five-link, four-actuator bipedal robot, RABBIT. A controller is designed so that the Poincar'e return map associated with periodic running gaits can be computed on the basis of a model with impulse-effects that, previously, had been used only for the design of walking gaits. This feedback design leads to the notion of a hybrid zero dynamics for running, which in turn allows the existence and stability of running gaits to be determined on the basis of a scalar map. The main results are illustrated via simulations performed on models with known parameters and on models with parameter uncertainty and structural changes. Animations of the resulting running ...
An online asymmetric trajectory generation method for biped robots is proposed to maintain dynamical...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
A method to optimize energy efficiency for bipedal running robots is presented. A running model of a...
International audienceThis paper develops a class of bipedal running controllers based on the hybrid...
In the field of robotic locomotion, the method of hybrid zero dynamics (HZD) proposed by Westervelt,...
International audienceThis paper presents three feedback controllers that achieve an asymptotically ...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
Planar, underactuated, biped walkers form an important domain of applications for hybrid dynamical s...
This dissertation contributes to the theoretical foundations of robotic bipedal locomotion and advan...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Bipedal running gaits may be self-stable if they rely on the intrinsic system dynamics to attenuate ...
The MIT Cheetah demonstrated a stable 6 m/s trot gait in the sagittal plane utilizing the self-stabl...
This paper presents a robust compound control strategy to produce a stable gait in dynamic bipedal r...
International audienceThis paper presents two walking controllers for a planar biped robot with unac...
An online asymmetric trajectory generation method for biped robots is proposed to maintain dynamical...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
A method to optimize energy efficiency for bipedal running robots is presented. A running model of a...
International audienceThis paper develops a class of bipedal running controllers based on the hybrid...
In the field of robotic locomotion, the method of hybrid zero dynamics (HZD) proposed by Westervelt,...
International audienceThis paper presents three feedback controllers that achieve an asymptotically ...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
Planar, underactuated, biped walkers form an important domain of applications for hybrid dynamical s...
This dissertation contributes to the theoretical foundations of robotic bipedal locomotion and advan...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Bipedal running gaits may be self-stable if they rely on the intrinsic system dynamics to attenuate ...
The MIT Cheetah demonstrated a stable 6 m/s trot gait in the sagittal plane utilizing the self-stabl...
This paper presents a robust compound control strategy to produce a stable gait in dynamic bipedal r...
International audienceThis paper presents two walking controllers for a planar biped robot with unac...
An online asymmetric trajectory generation method for biped robots is proposed to maintain dynamical...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
A method to optimize energy efficiency for bipedal running robots is presented. A running model of a...