Spatial Decoding for Gaze Independent Brain–Computer Interface Based on Covert Visual Attention Shift Using Electroencephalography
N Chugh, S Aggarwal - Clinical EEG and Neuroscience, 2024 - journals.sagepub.com
The gaze-independent brain–computer interface (BCI) device is used to re-establish
interaction for individuals who have abnormal eye movement. It may be possible to control …
interaction for individuals who have abnormal eye movement. It may be possible to control …
Spatial Decoding for Gaze Independent Brain-Computer Interface Based on Covert Visual Attention Shift Using Electroencephalography
N Chugh, S Aggarwal - Clinical EEG and neuroscience - pubmed.ncbi.nlm.nih.gov
The gaze-independent brain-computer interface (BCI) device is used to re-establish
interaction for individuals who have abnormal eye movement. It may be possible to control …
interaction for individuals who have abnormal eye movement. It may be possible to control …
Spatial Decoding for Gaze Independent Brain-Computer Interface Based on Covert Visual Attention Shift Using Electroencephalography.
N Chugh, S Aggarwal - Clinical EEG and Neuroscience, 2024 - europepmc.org
The gaze-independent brain-computer interface (BCI) device is used to re-establish
interaction for individuals who have abnormal eye movement. It may be possible to control …
interaction for individuals who have abnormal eye movement. It may be possible to control …
Spatial Decoding for Gaze Independent Brain–Computer Interface Based on Covert Visual Attention Shift Using Electroencephalography.
N Chugh, S Aggarwal - Clinical EEG & Neuroscience, 2024 - search.ebscohost.com
The gaze-independent brain–computer interface (BCI) device is used to re-establish
interaction for individuals who have abnormal eye movement. It may be possible to control …
interaction for individuals who have abnormal eye movement. It may be possible to control …