Brain-Controlled Wheelchairs: A Robotic Architecture

Independent mobility is core to being able to perform activities of daily living by oneself. However, powered wheelchairs are not an option for a large number of people who are unable to use conventional interfaces, due to severe motor–disabilities. Non-invasive brain–computer interfaces (BCIs) offer a promising solution to this interaction problem and in this article we present a shared control architecture that couples the intelligence and desires of the user with the precision of a powered wheelchair. We show how four healthy subjects are able to master control of the wheelchair using an asynchronous motor–imagery based BCI protocol and how this results in a higher overall task performance, compared with alternative synchronous P300–based approaches.


Publié dans:
IEEE Robotics and Automation Magazine, 20, 1, 65-73
Année
2013
Publisher:
Institute of Electrical and Electronics Engineers
ISSN:
1070-9932
Mots-clefs:
Note:
The original accepted preprint was entitiled: "The Robotic Architecture of an Asynchronous Brain–Actuated Wheelchair"
Laboratoires:




 Notice créée le 2012-10-09, modifiée le 2019-03-16

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