International audienceThis paper presents a new human-exoskeleton interaction approach to provide torque assistance of the lower limb movements upon wearer's intention. The exoskeleton interacts with the wearer; the shank-foot orthosis system behaves as a second order dynamic system with gravity and elastic torque balance. The intention of the wearer is estimated by using a realistic musculoskeletal model of the muscles actuating the knee joint. The identification process concerns the inertial parameters of the shank-foot, the exoskeleton and the musculotendon parameters. Real-time experiments, conducted on a healthy subject during flexion and extension movements of the knee joint, have shown satisfactory results in terms of tracking error, i...
Introduction: This work presents the development of a novel robotic knee exoskeleton controlled by ...
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
This study presents the development of a modular knee exoskeleton system that supports the knee join...
International audienceThis paper presents a new human-exoskeleton interaction approach to provide to...
International audienceThis paper presents a new approach to control a wearable knee joint exoskeleto...
International audienceThis paper presents two rehabilitation approaches of the lower limb: passive a...
International audienceThe present chapter deals with the development of two rehabilitation approache...
A number of passive orthoses have been developed to provide gait assistance and rehabilitation for i...
The main goal of this work is to develop a control framework to enable actuated lower-limb exoskelet...
An exoskeleton, a wearable device, was designed based on the user's physical and cognitive interacti...
International audiencePowered orthoses are external mechanical devices used to stabilize human limbs...
This thesis presents the development and experimental testing of a lower-limb exoskeleton system. Th...
The exoskeleton, a wearable device, was designed based on the physical and cognitive interactions fo...
International audienceThis paper presents a bounded control strategy of a knee-joint exoskeleton tha...
International audienceWearable robots have opened a new horizon for assistance and rehabilitation of...
Introduction: This work presents the development of a novel robotic knee exoskeleton controlled by ...
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
This study presents the development of a modular knee exoskeleton system that supports the knee join...
International audienceThis paper presents a new human-exoskeleton interaction approach to provide to...
International audienceThis paper presents a new approach to control a wearable knee joint exoskeleto...
International audienceThis paper presents two rehabilitation approaches of the lower limb: passive a...
International audienceThe present chapter deals with the development of two rehabilitation approache...
A number of passive orthoses have been developed to provide gait assistance and rehabilitation for i...
The main goal of this work is to develop a control framework to enable actuated lower-limb exoskelet...
An exoskeleton, a wearable device, was designed based on the user's physical and cognitive interacti...
International audiencePowered orthoses are external mechanical devices used to stabilize human limbs...
This thesis presents the development and experimental testing of a lower-limb exoskeleton system. Th...
The exoskeleton, a wearable device, was designed based on the physical and cognitive interactions fo...
International audienceThis paper presents a bounded control strategy of a knee-joint exoskeleton tha...
International audienceWearable robots have opened a new horizon for assistance and rehabilitation of...
Introduction: This work presents the development of a novel robotic knee exoskeleton controlled by ...
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
This study presents the development of a modular knee exoskeleton system that supports the knee join...