Towards a brain-controlled Wheelchair Prototype

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

Article

DOI: 10.14236/ewic/HCI2010.55

SO-VID: f1e7f8af-1788-4fec-912a-7f13784e9b5f

License:

This work is licensed under a Creative Commons Attribution 4.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

Conference name: Proceedings of HCI 2010

Conference acronym: HCI

Conference number: 24

Conference location: University of Abertay, Dundee, UK

Conference date: 6 - 10 September 2010

Conference sponsor: Electronic Workshops in Computing (eWiC)

Conference theme: Human Computer Interaction

History

Product

1477-9358 BCS Learning & Development

Self URI (article page): https://www.scienceopen.com/hosted-document?doi=10.14236/ewic/HCI2010.55

Self URI (journal page): https://ewic.bcs.org/

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Towards a brain-controlled Wheelchair Prototype

Abstract