International audienceThis paper presents a new technique for estimating the center of mass of articulated rigid body systems. This estimation technique uses the statically equivalent serial chain, a serial chain representation of any multi-link branched chain whose end-effector locates directly the center of mass. This technique works based on a knowledge of only the kinematic architecture of the system and does not require the total mass, or any of the individual body's mass or length properties. This constitutes an advance in center of mass estimation, providing an alternate to techniques requiring a force plate. A comparison of these estimation techniques is presented. The modeling and estimation technique is then implemented on a human...
Human body Center of Mass (CoM) and Center of Pressure (CoP) kinematics is related to stability and ...
International audienceThis paper deals with the problem of estimating the position of center of mass...
This project aims to develop a method to estimate the 3D inertial parameters of an object using a Ki...
This paper presents a new technique for estimating the center of mass of articulated rigid body syst...
This dissertation presents a center of mass (CoM) estimation technique that uses the statically equi...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
Identifying the center of mass location (CoM) provides a significant aid in controlling the balance ...
Any system composed of rigid bodies connected by revolute, spherical, and/or universal joints define...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
This project seeks to validate the use of a statically equivalent serial chain (SESC) in locating an...
Being able to determine a person\u27s center of mass (COM) location is very important and useful to ...
In this paper, a novel method to determine the center of mass position of each link of human-like mu...
International audienceThe estimation of the centre of mass position in humans is usually based on bi...
Avant de pouvoir interagir avec l'homme, les robots humanoïdes doivent encore être largement amélior...
Computational simulations of human movement require precise knowledge of the location of the body\u2...
Human body Center of Mass (CoM) and Center of Pressure (CoP) kinematics is related to stability and ...
International audienceThis paper deals with the problem of estimating the position of center of mass...
This project aims to develop a method to estimate the 3D inertial parameters of an object using a Ki...
This paper presents a new technique for estimating the center of mass of articulated rigid body syst...
This dissertation presents a center of mass (CoM) estimation technique that uses the statically equi...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
Identifying the center of mass location (CoM) provides a significant aid in controlling the balance ...
Any system composed of rigid bodies connected by revolute, spherical, and/or universal joints define...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
This project seeks to validate the use of a statically equivalent serial chain (SESC) in locating an...
Being able to determine a person\u27s center of mass (COM) location is very important and useful to ...
In this paper, a novel method to determine the center of mass position of each link of human-like mu...
International audienceThe estimation of the centre of mass position in humans is usually based on bi...
Avant de pouvoir interagir avec l'homme, les robots humanoïdes doivent encore être largement amélior...
Computational simulations of human movement require precise knowledge of the location of the body\u2...
Human body Center of Mass (CoM) and Center of Pressure (CoP) kinematics is related to stability and ...
International audienceThis paper deals with the problem of estimating the position of center of mass...
This project aims to develop a method to estimate the 3D inertial parameters of an object using a Ki...