The ankle represents a fairly complex bone structure, resulting in kinematics that hinders a flawless robot assisted recovery of foot motility in impaired subjects. The paper proposes a novel device for ankle-foot neuro-rehabilitation based on a mechatronic redesign of the remarkable Agile Eye spherical robot on the basis of clinical requisites. The kinematic design allows the positioning of the ankle articular center close to the machine rotation center with valuable benefits in term of therapy functions. The prototype, named PKAnkle, Parallel Kinematic machine for Ankle rehabilitation, provides a 6-axes load cell for the measure of subject interaction forces / torques, and it integrates a commercial EMG-acquisition system. Robot control provides active and passive therapeutic exercises.
A Spherical Parallel Three Degrees-of-Freedom Robot for Ankle-Foot Neuro-Rehabilitation
Malosio, Matteo
Primo
Membro del Collaboration Group
;Negri, Simone PioSecondo
Membro del Collaboration Group
;Pedrocchi, NicolaWriting – Review & Editing
;Vicentini, FedericoWriting – Review & Editing
;Caimmi, MarcoPenultimo
Membro del Collaboration Group
;Molinari Tosatti, LorenzoUltimo
Funding Acquisition
2012
Abstract
The ankle represents a fairly complex bone structure, resulting in kinematics that hinders a flawless robot assisted recovery of foot motility in impaired subjects. The paper proposes a novel device for ankle-foot neuro-rehabilitation based on a mechatronic redesign of the remarkable Agile Eye spherical robot on the basis of clinical requisites. The kinematic design allows the positioning of the ankle articular center close to the machine rotation center with valuable benefits in term of therapy functions. The prototype, named PKAnkle, Parallel Kinematic machine for Ankle rehabilitation, provides a 6-axes load cell for the measure of subject interaction forces / torques, and it integrates a commercial EMG-acquisition system. Robot control provides active and passive therapeutic exercises.| File | Dimensione | Formato | |
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prod_203030-doc_45129.pdf
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Descrizione: A Spherical Parallel Three Degrees-of-Freedom Robot for Ankle-Foot Neuro-Rehabilitation
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