A Wearable Device for Upper Limb Rehabilitation and Assistance Based on Fluid Actuators and Myoelectric Control DOI Open Access
Cristina–Maria Biriș, Sever-Gabriel Racz, Claudia–Emilia Gîrjob

et al.

Published: Aug. 1, 2023

Wearable exoskeleton solutions for upper limb rehabilitation or assistance, particularly the hand area, have become increasingly attractive to researchers, proving be effective over time in treating movement impairments following various neurological diseases. In present work, development of a wearable exoskeleton-type device active has been addressed, based on fluid actuators made elastomeric material and myoelectric control by capturing signals from forearm area. The flexion fingers (phalanges) is actively assisted pneumatic actuation built-in extension depressurization actuator. designed as easy use possible, light weight, provide high degree comfort when used patient training daily life activities (ADL), which can performed one's own home.

Language: Английский

A Wearable Device for Upper Limb Rehabilitation and Assistance Based on Fluid Actuators and Myoelectric Control DOI Open Access
Cristina–Maria Biriș, Sever-Gabriel Racz, Claudia–Emilia Gîrjob

et al.

Published: Aug. 1, 2023

Wearable exoskeleton solutions for upper limb rehabilitation or assistance, particularly the hand area, have become increasingly attractive to researchers, proving be effective over time in treating movement impairments following various neurological diseases. In present work, development of a wearable exoskeleton-type device active has been addressed, based on fluid actuators made elastomeric material and myoelectric control by capturing signals from forearm area. The flexion fingers (phalanges) is actively assisted pneumatic actuation built-in extension depressurization actuator. designed as easy use possible, light weight, provide high degree comfort when used patient training daily life activities (ADL), which can performed one's own home.

Language: Английский

Citations

1