In this project, a design for a non-invasive, EEG-based braincontrolled wheelchair has been developed for use by completely paralyzed patients. The proposed design includes a novel approach for selecting optimal electrode positions, a series of signal processing algorithms and an interface to a powered wheelchair. In addition, a 3D virtual environment has been implemented for training, evaluating and testing the system prior to establishing the wheelchair interface. Simulation of a virtual scenario replicating the real world gives subjects an opportunity to become familiar with operating the device prior to engaging the wheelchair.
Content
Author and article information
Contributors
Naisan Yazdani
Fatemah Khazab
Sean Fitzgibbon
Martin Luerssen
David Powers
C. Richard Clark
Conference
Publication date:
September
2010
Publication date
(Print):
September
2010
Pages: 453-457
Affiliations
[0001]School of Computer Science, Engineering and Mathematics,
Flinders University, Adelaide, Australia
[0002]School of Psychology
Flinders University, Adelaide