International audienceThe knowledge of the gravitational vertical is fundamental for the autonomous control of humanoids and other free-moving robotic systems such as rovers and drones. This article deals with the hypothesis that the so-called 'head stabilization strategy' observed in humans and animals facilitates the estimation of the true vertical from inertial sensing only. This problem is difficult because inertial measurements respond to a combination of gravity and fictitious forces that are hard to disentangle. From simulations and experiments, we found that the angular stabilization of a platform bearing inertial sensors enables the application of the separation principle. This principle, which permits one to design estimators and ...
6 pages, appears in 2014 IEEE-RAS International Conference on Humanoid RobotsGaze stabilization is a...
International audienceBio-inspired guidance principles involving no reference frame are presented he...
SummaryAlignment of the body to the gravitational vertical is considered to be the key to human bipe...
It has been frequently observed that humans and animals spontaneously stabilise their heads with r...
Abstract Estimation of the gravitational vertical is a fundamental problem faced by locomoting biolo...
In this thesis, a nonlinear model of the vestibular system is proposed, with special reference to hu...
International audienceIn many walking, running, flying, and swimming animals, including mammals, rep...
International audienceThe present paper deals with the development of bounded feedback control laws ...
International audienceDuring the steady gait, humans stabilize their head around the vertical orient...
The article presents the possibilities of using popular MEMS inertial sensors in the object tilt ang...
Head stabilization is fundamental for many animals survival. Its posture and the way it compensates ...
International audienceInspired by natural visual systems where gaze stabilization is at a premium, w...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
International audienceThis work provides an hovering control strategy for a sighted robot, the eye o...
Gravity provides an absolute verticality reference for all spatial perception, allowing us to move w...
6 pages, appears in 2014 IEEE-RAS International Conference on Humanoid RobotsGaze stabilization is a...
International audienceBio-inspired guidance principles involving no reference frame are presented he...
SummaryAlignment of the body to the gravitational vertical is considered to be the key to human bipe...
It has been frequently observed that humans and animals spontaneously stabilise their heads with r...
Abstract Estimation of the gravitational vertical is a fundamental problem faced by locomoting biolo...
In this thesis, a nonlinear model of the vestibular system is proposed, with special reference to hu...
International audienceIn many walking, running, flying, and swimming animals, including mammals, rep...
International audienceThe present paper deals with the development of bounded feedback control laws ...
International audienceDuring the steady gait, humans stabilize their head around the vertical orient...
The article presents the possibilities of using popular MEMS inertial sensors in the object tilt ang...
Head stabilization is fundamental for many animals survival. Its posture and the way it compensates ...
International audienceInspired by natural visual systems where gaze stabilization is at a premium, w...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
International audienceThis work provides an hovering control strategy for a sighted robot, the eye o...
Gravity provides an absolute verticality reference for all spatial perception, allowing us to move w...
6 pages, appears in 2014 IEEE-RAS International Conference on Humanoid RobotsGaze stabilization is a...
International audienceBio-inspired guidance principles involving no reference frame are presented he...
SummaryAlignment of the body to the gravitational vertical is considered to be the key to human bipe...