Add to ORKGInternational audienceBody segment inertial parameters of an exoskeleton and human being are of crucial importance for the development of model-based controllers and for the monitoring of rehabilitation processes. These parameters are usually provided using Computer Aided Design (CAD) models or averaged Anthropometric Tables (AT) for human. However, CAD models are often not sufficiently accurate and particularly if the robot is interacting with the environment, also the use of AT for inertial parameters estimation concerns only variations within a relatively small category of subjects. Thus, robust and simple to use identification methods based on kinematic and dynamometric measurements should be developed. In this paper, an identification ...
In this work, an identification method is presented for the determination of the body segment parame...
The main goal of this work is to develop a control framework to enable actuated lower-limb exoskelet...
The accurate estimation of inertial properties of individual body segments, including mass and momen...
International audienceBody segment inertial parameters of an exoskeleton and human being are of cruc...
International audienceThis paper presents a practical method to identify body segments inertial para...
Abstract—The exoskeleton is an autonomous robotic device whose function is to increase the strength ...
This paper presents the model identification and control of an upper-limb exoskeleton system. The ex...
In exoskeletal robots, the quantification of the user’s muscular effort is important to recognize th...
Accurate knowledge of body segment inertia parameters (BSIP) improves the assessment of dynamic anal...
With the predicted increase in worldwide elderly population in the future and already significant po...
Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical...
International audienceKnowledge of the mass and inertial parameters of a humanoid robot or a human b...
An increasing number of robotic systems are using compliant actuators in which springs are placed in...
National audienceThe knowledge of dynamic parameters of robotic systems is essential to applications...
The assistive robotic exoskeleton for gait rehabilitation has drawn much attention recently due to t...
In this work, an identification method is presented for the determination of the body segment parame...
The main goal of this work is to develop a control framework to enable actuated lower-limb exoskelet...
The accurate estimation of inertial properties of individual body segments, including mass and momen...
International audienceBody segment inertial parameters of an exoskeleton and human being are of cruc...
International audienceThis paper presents a practical method to identify body segments inertial para...
Abstract—The exoskeleton is an autonomous robotic device whose function is to increase the strength ...
This paper presents the model identification and control of an upper-limb exoskeleton system. The ex...
In exoskeletal robots, the quantification of the user’s muscular effort is important to recognize th...
Accurate knowledge of body segment inertia parameters (BSIP) improves the assessment of dynamic anal...
With the predicted increase in worldwide elderly population in the future and already significant po...
Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical...
International audienceKnowledge of the mass and inertial parameters of a humanoid robot or a human b...
An increasing number of robotic systems are using compliant actuators in which springs are placed in...
National audienceThe knowledge of dynamic parameters of robotic systems is essential to applications...
The assistive robotic exoskeleton for gait rehabilitation has drawn much attention recently due to t...
In this work, an identification method is presented for the determination of the body segment parame...
The main goal of this work is to develop a control framework to enable actuated lower-limb exoskelet...
The accurate estimation of inertial properties of individual body segments, including mass and momen...