Add to ORKGInternational audienceIn the field of rehabilitation robotics, few researchers have been focusing on the problem of controlling motor coordination in post-stroke patients. Studies on coordination learning, when the robotic devices act at the joint level on multiple interaction points, as in the case of exoskeletons, are lacking. For this reason, we studied on 10 healthy subjects the possibility of learning a non-natural inter-joint coordination while performing a pointing task. This coordination was induced by a 4-DOF robotic exoskeleton, applying resistive force fields at the joint level. Preliminary results showed the capability of our controller to modify human healthy natural coordination after exposition to the fields and generalizatio...
Background: Robotic neurorehabilitation aims at promoting the recovery of lost function after neurol...
This study, conducted in a group of nine chronic patients with right-side hemiparesis after stroke, ...
International audienceThe quality of arm movements typically improves in the sub-acute phase of stro...
In the field of rehabilitation robotics, few researchers have been focusing on the problem of contro...
Abstract Background The possibility to modify the usually pathological patterns of coordination of t...
International audienceRobotic exoskeletons can apply forces distributed on the limbs of the subject ...
International audienceUpper-limb impairment after stroke is caused by weakness, loss of individual j...
Upper-limb impairment after stroke is caused by weakness, loss of individual joint control, spastici...
This work deals with the problem of upper limb neurorehabilitation using robotics exoskeletons. Cont...
International audienceThe aim of this paper was to explore how an upper limb exoskeleton can be prog...
International audienceIntroduction/BackgroundRobotic technologies offer the possibility for highly s...
Background: Robotic neurorehabilitation aims at promoting the recovery of lost function after neurol...
This study, conducted in a group of nine chronic patients with right-side hemiparesis after stroke, ...
International audienceThe quality of arm movements typically improves in the sub-acute phase of stro...
In the field of rehabilitation robotics, few researchers have been focusing on the problem of contro...
Abstract Background The possibility to modify the usually pathological patterns of coordination of t...
International audienceRobotic exoskeletons can apply forces distributed on the limbs of the subject ...
International audienceUpper-limb impairment after stroke is caused by weakness, loss of individual j...
Upper-limb impairment after stroke is caused by weakness, loss of individual joint control, spastici...
This work deals with the problem of upper limb neurorehabilitation using robotics exoskeletons. Cont...
International audienceThe aim of this paper was to explore how an upper limb exoskeleton can be prog...
International audienceIntroduction/BackgroundRobotic technologies offer the possibility for highly s...
Background: Robotic neurorehabilitation aims at promoting the recovery of lost function after neurol...
This study, conducted in a group of nine chronic patients with right-side hemiparesis after stroke, ...
International audienceThe quality of arm movements typically improves in the sub-acute phase of stro...