I.P. Ganin

TL;DR: The broader use of the P300 BCI in BCI-controlled video games is recommended, because it exhibits relatively high speed and accuracy, and can be used without user training, after a short calibration.

TL;DR: For the users controlling their gaze, the P300 BCI design can be extended to modifications requiring stimuli matrix motion, and the amplitudes and latencies of these ERP components were remarkably stable in studied types of matrix movement and all velocities of horizontal movement.

TL;DR: It is shown that this P300 BCI paradigm, unlike the standard oddball paradigm, elicit not only the P300 wave but also a strong posterior N1 wave, supporting the view that this component's sensitivity to targets cannot be based simply on "foveating" the target, but may be related to spatial attention mechanisms, which involvement is natural for the P 300 BCI.

TL;DR: The movement of stimulus positions relative to each other may not prevent the efficient use of the P300 BCI by people controlling their gaze, e.g., in robotic devices and in video games.

TL;DR: In this study, the ERPs recorded in healthy subjects in a standard BCI paradigm or during triple-trial and single-trial presentations of stimuli in a modifiedBCI paradigm with moving objects have been analyzed and first presentations of the target stimuli or single- trial presentation of thetarget stimulus were associated with higher amplitudes of ERPs.