International audienceThis paper presents an original approach to simply and efficiently estimate the center of mass position of a free-floating base system, like a humanoid robot or a human body. This approach relies on the theory of complementary filtering, which is a popular technique in aerial robotics, but rarely implemented in humanoid robotics. The main idea consists in merging input measurements like the zero-moment point position, the contact forces, etc. which are then filtered according to their reliability in their respective spectral bandwidth. We validate this approach in simulation by (i) comparing the estimated center of mass trajectory with its real value and (ii) showing that the complementary filter offers on average a le...
In this paper, a novel method to determine the center of mass position of each link of human-like mu...
Avant de pouvoir interagir avec l'homme, les robots humanoïdes doivent encore être largement amélior...
International audienceEstimating the centroidal dynamics of legged robots is crucial in the context ...
International audienceThis paper presents an original approach to simply and efficiently estimate th...
International audienceThis paper deals with the problem of estimating the position of center of mass...
International audienceEstimating the center of mass position and the angular momentum derivative of ...
This paper presents a new technique for estimating the center of mass of articulated rigid body syst...
When a humanoid robot is performing a certain task and is simultaneously maintaining balance, it is ...
This dissertation presents a center of mass (CoM) estimation technique that uses the statically equi...
Identifying the center of mass location (CoM) provides a significant aid in controlling the balance ...
This article presents a novel cascade state estimation framework for 3D Center of Mass (CoM) estimat...
The substantive subject of this thesis is the motion of anthropomorphic systems, and more particular...
International audienceThis paper introduces and evaluates a family of new simple estimators to recon...
In this paper, an analytical formula for the determination of the center of mass position in humanoi...
In this paper, a novel method to determine the center of mass position of each link of human-like mu...
Avant de pouvoir interagir avec l'homme, les robots humanoïdes doivent encore être largement amélior...
International audienceEstimating the centroidal dynamics of legged robots is crucial in the context ...
International audienceThis paper presents an original approach to simply and efficiently estimate th...
International audienceThis paper deals with the problem of estimating the position of center of mass...
International audienceEstimating the center of mass position and the angular momentum derivative of ...
This paper presents a new technique for estimating the center of mass of articulated rigid body syst...
When a humanoid robot is performing a certain task and is simultaneously maintaining balance, it is ...
This dissertation presents a center of mass (CoM) estimation technique that uses the statically equi...
Identifying the center of mass location (CoM) provides a significant aid in controlling the balance ...
This article presents a novel cascade state estimation framework for 3D Center of Mass (CoM) estimat...
The substantive subject of this thesis is the motion of anthropomorphic systems, and more particular...
International audienceThis paper introduces and evaluates a family of new simple estimators to recon...
In this paper, an analytical formula for the determination of the center of mass position in humanoi...
In this paper, a novel method to determine the center of mass position of each link of human-like mu...
Avant de pouvoir interagir avec l'homme, les robots humanoïdes doivent encore être largement amélior...
International audienceEstimating the centroidal dynamics of legged robots is crucial in the context ...