AI Article Synopsis

  • The study investigates improving comfort while maintaining effectiveness in brain-computer interfaces (BCI) using steady-state visual evoked potential (SSVEP) by reducing pixel density in visual stimuli.
  • Three key factors were tested: the type of visual presentation (flickering square vs. checkerboard), the distribution of pixels (random vs. uniform), and varying pixel densities (from 100% down to 20%).
  • Results indicate that a flickering square with random pixel distribution at a 60% pixel density optimizes both user comfort and communication accuracy, showing no significant drop in effectiveness compared to the original higher density.

Article Abstract

The brain-computer interface (BCI) based on the steady-state visual evoked potential (SSVEP) has drawn widespread attention due to its high communication speed and low individual variability. However, there is still a need to enhance the comfort of SSVEP-BCI, especially considering the assurance of its effectiveness. This study aims to achieve a perfect balance between comfort and effectiveness by reducing the pixel density of SSVEP stimuli. Three experiments were conducted to determine the most suitable presentation form (flickering square vs. flickering checkerboard), pixel distribution pattern (random vs. uniform), and pixel density value (100%, 90%, 80%, 70%, 60%, 40%, 20%). Subjects' electroencephalogram (EEG) and fatigue scores were recorded, while comfort and effectiveness were measured by fatigue score and classification accuracy, respectively. The results showed that the flickering square with random pixel distribution achieved a lower fatigue score and higher accuracy. EEG responses induced by stimuli with a square-random presentation mode were then compared across various pixel densities. In both offline and online tests, the fatigue score decreased as the pixel density decreased. Strikingly, when the pixel density was above 60%, the accuracies of low-pixel-density SSVEP were all satisfactory (>90%) and showed no significant difference with that of the conventional 100%-pixel density. These results support the feasibility of using 60%-pixel density with a square-random presentation mode to improve the comfort of SSVEP-BCI, thereby promoting its practical applications in communication and control.

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Source
http://dx.doi.org/10.1109/TNSRE.2023.3328917DOI Listing

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