Title :
Adaptive control of a robotic exoskeleton for neurorehabilitation
Author :
Proietti, Tommaso ; Jarrasse, Nathanael ; Roby-Brami, Agnes ; Morel, Guillaume
Author_Institution :
INSERM, Sorbonne Univ., Paris, France
Abstract :
Neurorehabilitation efficiency increases with therapy intensity and subject´s involvement during physical exercises. Robotic exoskeletons could bring both features, if they could adapt the level of assistance to patient´s motor capacities. To this aim, we developed an exoskeleton controller, based on adaptive techniques, that can actively modulate the stiffness of the robotic device in function of the subject´s activity. We tested this control law on one healthy subject with an upper-limb exoskeleton. The experiment consisted in learning a trajectory imposed by the robot. The early results show the different features allowed by our controller with respect to controllers commonly used for neurorehabilitation with exoskeletons.
Keywords :
adaptive control; bone; medical robotics; orthopaedics; patient rehabilitation; patient treatment; adaptive control; adaptive techniques; learning; neurorehabilitation; patient motor capacity; robotic device; robotic exoskeletons; therapy intensity; upper-limb exoskeleton; Exoskeletons; Feedforward neural networks; Joints; Muscles; Robots; Shoulder; Torque; Adaptive control; neurorehabilitation; post-stroke robotic therapy; upper-limb robotic exoskeletons;
Conference_Titel :
Neural Engineering (NER), 2015 7th International IEEE/EMBS Conference on
Conference_Location :
Montpellier
DOI :
10.1109/NER.2015.7146745
