ISSN Print 2500–1094
ISSN Online 2542–1204
Bulletin of RSMU
BIOMEDICAL JOURNAL OF PIROGOV UNIVERSITY (MOSCOW, RUSSIA)
ORIGINAL RESEARCH
Studying the ability to control human phantom fingers in P300 brain-computer interface
About authors
1 Laboratory for Neurophysiology and Nero-Computer Interfaces, Faculty of Biology,Lomonosov Moscow State University, Moscow, Russia
2 Laboratory for Brain-Machine Interfaces and Applied Neuroengineering,Lobachevsky National Research State University of Nizhny Novgorod, Nizhny Novgorod, Russia
Correspondence should be addressed: Alexandr Kaplan
Leninskie gory, d. 1, str. 12, Moscow, Russia, 117234; ur.liam@nalpaka
About paper
Funding: this work was partially supported by the Skolkovo Foundation, grant no. 1110034, and the Russian Science Foundation, grant no. 15-19-20053.
Received: 2016-04-11
Accepted: 2016-04-15
Published online: 2017-01-05
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In this work we have tested the assumption that an individual can control a target finger of a phantom by voluntarily focusing his attention on the luminous marker located on that finger in the complex of a P300 wave–based brain-computer interface (P300 BCI) and an anthropomorphic phantom. Because each correct movement of phantom fingers indicates a sufficient mental effort aimed at this action, creating a new ideomotor training simulator of smaller movements of the hand becomes possible. Our study included 21 volunteer subjects of both sexes aged 18–25. It was shown that with P300 BCI complex the subjects learned to control phantom fingers on the first day of the experiment, the percentage of successful attempts being no less than 69 %. Failures were mainly related to the insufficient attention focus on luminous markers on the target phantom fingers. We hypothesize that P300 BCI — Hand Phantom complex can be a basis for developing a fine motor skills simulator.