Design of a robotic wheelchair with a motor imagery based brain-computer interface

Author

Keun-Tae Kim ; Carlson, T. ; Seong-Whan Lee

Author_Institution

Dept. of Brain & Cognitive Eng., Korea Univ., Seoul, South Korea

fYear

2013

fDate

18-20 Feb. 2013

Firstpage

46

Lastpage

48

Abstract

This paper presents a prototype for an electro-encephalogram (EEG) based brain-actuated wheelchair system using motor imagery. To overcome some of the limitations of other previous works, such as gaze dependence and unnecessary stops, five commands (left, left-diagonal, right, right-diagonal, and forward) were decoded based on the motor imagery correlates in EEG signals. Also, the system was modularized into three components: BCI control, and network. On the basis of the conclusions, we can expect a robust brain-actuated wheelchair system, which can allow the user´s intention to control the wheelchair in multi-directional movements, thereby increasing the user´s authority compared with many of the alternative approaches.

Keywords

brain-computer interfaces; control engineering computing; electric vehicles; electroencephalography; handicapped aids; medical robotics; medical signal processing; BCI control component; EEG based brain-actuated wheelchair system; EEG signal; brain-computer interface; electroencephalography; forward command; left command; left-diagonal command; motor imagery based brain-computer interface; network component; right command; right-diagonal command; robotic wheelchair; user authority; Electroencephalography; Foot; Mobile robots; Permanent magnet motors; Training; Wheelchairs; Brain-actuated wheelchair; Brain-computer interface;

fLanguage

English

Publisher

ieee

Conference_Titel

Brain-Computer Interface (BCI), 2013 International Winter Workshop on

Conference_Location

Gangwo

Print_ISBN

978-1-4673-5973-3

Type

conf

DOI

10.1109/IWW-BCI.2013.6506625

Filename

6506625