International audienceA human's center of mass (CoM) trajectory is useful to evaluate the dynamic stability during daily life activities such as walking and standing up. To estimate the subjectspecific CoM position in the home environment, we make use of a statically equivalent serial chain (SESC) developed with a portable measurement system. In this paper we implement a constrained Kalman filter to achieve an online estimation of the SESC parameters while accounting for the human body's bilateral symmetry. This results in constraining SESC parameters to be consistent with the human skeletal model used. The proposed identification method can inform the subject or the therapist, in real-time, about the quality of the on-going CoM estimation. Th...
The objective of this paper is to present a personalisable human ergonomics framework that integrate...
International audienceAn increasingly aging society creates the need for a reliable evaluation of po...
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...
International audienceBackground:Tracking the whole body center of mass (CoM) trajectory of balance-...
International audienceWe develop and present a portable tool intended for real time estimation of th...
International audienceThe trajectory of the whole body center of mass (CoM) is useful as a reliable ...
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 ...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
Any system composed of rigid bodies connected by revolute, spherical, and/or universal joints define...
International audienceAs the center of mass (CoM) position can be used to determine stability, curre...
Being able to determine a person\u27s center of mass (COM) location is very important and useful to ...
International audienceCenter of mass (CoM) estimation can be used to evaluate human stability during...
The objective of this paper is to present a personalisable human ergonomics framework that integrate...
The objective of this paper is to present a personalisable human ergonomics framework that integrate...
International audienceAn increasingly aging society creates the need for a reliable evaluation of po...
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...
International audienceBackground:Tracking the whole body center of mass (CoM) trajectory of balance-...
International audienceWe develop and present a portable tool intended for real time estimation of th...
International audienceThe trajectory of the whole body center of mass (CoM) is useful as a reliable ...
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 ...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...
Any system composed of rigid bodies connected by revolute, spherical, and/or universal joints define...
International audienceAs the center of mass (CoM) position can be used to determine stability, curre...
Being able to determine a person\u27s center of mass (COM) location is very important and useful to ...
International audienceCenter of mass (CoM) estimation can be used to evaluate human stability during...
The objective of this paper is to present a personalisable human ergonomics framework that integrate...
The objective of this paper is to present a personalisable human ergonomics framework that integrate...
International audienceAn increasingly aging society creates the need for a reliable evaluation of po...
Any articulated system of rigid bodies defines a statically equivalent serial chain (SESC). The SESC...