Wireless sEMG-based body–machine interface for assistive technology devices
CL Fall, G Gagnon-Turcotte, JF Dube… - IEEE journal of …, 2016 - ieeexplore.ieee.org
Assistive technology (AT) tools and appliances are being more and more widely used and
developed worldwide to improve the autonomy of people living with disabilities and ease the
interaction with their environment. This paper describes an intuitive and wireless surface
electromyography (sEMG) based body-machine interface for AT tools. Spinal cord injuries at
C5-C8 levels affect patients' arms, forearms, hands, and fingers control. Thus, using
classical AT control interfaces (keypads, joysticks, etc.) is often difficult or impossible. The …
developed worldwide to improve the autonomy of people living with disabilities and ease the
interaction with their environment. This paper describes an intuitive and wireless surface
electromyography (sEMG) based body-machine interface for AT tools. Spinal cord injuries at
C5-C8 levels affect patients' arms, forearms, hands, and fingers control. Thus, using
classical AT control interfaces (keypads, joysticks, etc.) is often difficult or impossible. The …
A wireless sEMG-based body-machine interface for assistive technology devices
B Gosselin, G Gagnon-Turcotte, C Gosselin… - 2016 - corpus.ulaval.ca
Résumé Assistive technology (AT) tools and appliances are being more and more widely
used and developed worldwide to improve the autonomy of people living with disabilities
and ease the interaction with their environment. This paper describes an intuitive and
wireless surface electromyography (sEMG) based body-machine interface for AT tools.
Spinal cord injuries at C5-C8 levels affect patients' arms, forearms, hands, and fingers
control. Thus, using classical AT control interfaces (keypads, joysticks, etc.) is often difficult …
used and developed worldwide to improve the autonomy of people living with disabilities
and ease the interaction with their environment. This paper describes an intuitive and
wireless surface electromyography (sEMG) based body-machine interface for AT tools.
Spinal cord injuries at C5-C8 levels affect patients' arms, forearms, hands, and fingers
control. Thus, using classical AT control interfaces (keypads, joysticks, etc.) is often difficult …
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