Publications
2011
Portelli, Anthony J.; Daly, Ian; Spencer, Mathew; Nasuto, Slawomir J.
Low Cost Brain Computer Interface First Results Conference
Proceedings of the 5th International Brain-Computer Interface Conference 2011, 2011.
Abstract | Links | BibTeX | Tags: BCI, EEG, Low-cost BCI
@conference{Portelli2011,
title = {Low Cost Brain Computer Interface First Results},
author = {Anthony J. Portelli and Ian Daly and Mathew Spencer and Slawomir J. Nasuto},
url = {http://www.iandaly.co.uk/wp-content/uploads/2016/01/Low-Cost-Brain-Computer-Interface.pdf},
year = {2011},
date = {2011-09-01},
booktitle = {Proceedings of the 5th International Brain-Computer Interface Conference 2011},
abstract = {Brain Computer Interfacing (BCI) has been previously demonstrated to restore patient communication, meeting with varying degrees of success. Due to the nature of the equipment traditionally used in BCI experimentation (the electroencephalograph) it is mostly confined to clinical and research environments. The required medical safety standards, subsequent cost of equipment and its application/training times are all issues that need to be resolved if BCIs are to be taken out of the lab/clinic and delivered to the home market. The results in this paper demonstrate a system developed with a low cost medical grade EEG amplifier unit in conjunction with the open source BCI2000 software suite thus constructing the cheapest per electrode system available, meeting rigorous clinical safety standards. Discussion of the future of this technology and future work concerning this platform are also introduced.},
keywords = {BCI, EEG, Low-cost BCI},
pubstate = {published},
tppubtype = {conference}
}
Brain Computer Interfacing (BCI) has been previously demonstrated to restore patient communication, meeting with varying degrees of success. Due to the nature of the equipment traditionally used in BCI experimentation (the electroencephalograph) it is mostly confined to clinical and research environments. The required medical safety standards, subsequent cost of equipment and its application/training times are all issues that need to be resolved if BCIs are to be taken out of the lab/clinic and delivered to the home market. The results in this paper demonstrate a system developed with a low cost medical grade EEG amplifier unit in conjunction with the open source BCI2000 software suite thus constructing the cheapest per electrode system available, meeting rigorous clinical safety standards. Discussion of the future of this technology and future work concerning this platform are also introduced.