%0 Journal Article %J Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology %D 2010 %T A novel P300-based brain-computer interface stimulus presentation paradigm: moving beyond rows and columns. %A Townsend, G. %A LaPallo, B. K. %A Chadwick B. Boulay %A Krusienski, D. J. %A Frye, G. E. %A Hauser, C. K. %A Schwartz, N. E. %A Theresa M Vaughan %A Jonathan Wolpaw %A Sellers, E. W. %K brain-computer interface %K brain-machine interface %K EEG %K event-related potential %K P300 %K Rehabilitation %X OBJECTIVE: An electroencephalographic brain-computer interface (BCI) can provide a non-muscular means of communication for people with amyotrophic lateral sclerosis (ALS) or other neuromuscular disorders. We present a novel P300-based BCI stimulus presentation - the checkerboard paradigm (CBP). CBP performance is compared to that of the standard row/column paradigm (RCP) introduced by Farwell and Donchin (1988). METHODS: Using an 8x9 matrix of alphanumeric characters and keyboard commands, 18 participants used the CBP and RCP in counter-balanced fashion. With approximately 9-12 min of calibration data, we used a stepwise linear discriminant analysis for online classification of subsequent data. RESULTS: Mean online accuracy was significantly higher for the CBP, 92%, than for the RCP, 77%. Correcting for extra selections due to errors, mean bit rate was also significantly higher for the CBP, 23 bits/min, than for the RCP, 17 bits/min. Moreover, the two paradigms produced significantly different waveforms. Initial tests with three advanced ALS participants produced similar results. Furthermore, these individuals preferred the CBP to the RCP. CONCLUSIONS: These results suggest that the CBP is markedly superior to the RCP in performance and user acceptability. SIGNIFICANCE: The CBP has the potential to provide a substantially more effective BCI than the RCP. This is especially important for people with severe neuromuscular disabilities. %B Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology %V 121 %P 1109–1120 %8 07/2010 %G eng %U http://www.ncbi.nlm.nih.gov/pubmed/20347387 %R 10.1016/j.clinph.2010.01.030 %0 Journal Article %J Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology %D 2009 %T Toward a high-throughput auditory P300-based brain-computer interface. %A Klobassa, D. S. %A Theresa M Vaughan %A Peter Brunner %A Schwartz, N. E. %A Jonathan Wolpaw %A Neuper, C. %A Sellers, E. W. %K brain-computer interface %K brain-machine interface %K EEG %K event-related potential %K P300 %K Rehabilitation %X OBJECTIVE: Brain-computer interface (BCI) technology can provide severely disabled people with non-muscular communication. For those most severely disabled, limitations in eye mobility or visual acuity may necessitate auditory BCI systems. The present study investigates the efficacy of the use of six environmental sounds to operate a 6x6 P300 Speller. METHODS: A two-group design was used to ascertain whether participants benefited from visual cues early in training. Group A (N=5) received only auditory stimuli during all 11 sessions, whereas Group AV (N=5) received simultaneous auditory and visual stimuli in initial sessions after which the visual stimuli were systematically removed. Stepwise linear discriminant analysis determined the matrix item that elicited the largest P300 response and thereby identified the desired choice. RESULTS: Online results and offline analyses showed that the two groups achieved equivalent accuracy. In the last session, eight of 10 participants achieved 50% or more, and four of these achieved 75% or more, online accuracy (2.8% accuracy expected by chance). Mean bit rates averaged about 2 bits/min, and maximum bit rates reached 5.6 bits/min. CONCLUSIONS: This study indicates that an auditory P300 BCI is feasible, that reasonable classification accuracy and rate of communication are achievable, and that the paradigm should be further evaluated with a group of severely disabled participants who have limited visual mobility. SIGNIFICANCE: With further development, this auditory P300 BCI could be of substantial value to severely disabled people who cannot use a visual BCI. %B Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology %V 120 %P 1252–1261 %8 07/2009 %G eng %U http://www.ncbi.nlm.nih.gov/pubmed/19574091 %R 10.1016/j.clinph.2009.04.019