High-density scalp electroencephalogram dataset during sensorimotor rhythm-based brain-computer interfacing

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Abstract

Real-time functional imaging of human neural activity and its closed-loop feedback enable voluntary control of targeted brain regions. In particular, a brain-computer interface (BCI), a direct bridge of neural activities and machine actuation is one promising clinical application of neurofeedback. Although a variety of studies reported successful self-regulation of motor cortical activities probed by scalp electroencephalogram (EEG), it remains unclear how neurophysiological, experimental conditions or BCI designs influence variability in BCI learning. Here, we provide the EEG data during using BCIs based on sensorimotor rhythm (SMR), consisting of 4 separate datasets. All EEG data were acquired with a high-density scalp EEG setup containing 128 channels covering the whole head. All participants were instructed to perform motor imagery of right-hand movement as the strategy to control BCIs based on the task-related power attenuation of SMR magnitude, that is event-related desynchronization. This dataset would allow researchers to explore the potential source of variability in BCI learning efficiency and facilitate follow-up studies to test the explicit hypotheses explored by the dataset.

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Iwama, S., Morishige, M., Kodama, M., Takahashi, Y., Hirose, R., & Ushiba, J. (2023). High-density scalp electroencephalogram dataset during sensorimotor rhythm-based brain-computer interfacing. Scientific Data, 10(1). https://doi.org/10.1038/s41597-023-02260-6

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