Objective. Steady-state visual evoked potentials (SSVEPs), the brain responses to repetitive visual stimulation (RVS), are widely utilized in neuroscience. Their high signal-to-noise ratio and ability to entrain oscillatory brain activity are beneficial for their applications in brain-computer interfaces, investigation of neural processes underlying brain rhythmic activity (steady-state topography) and probing the causal role of brain rhythms in cognition and emotion. This paper aims at analyzing the space and time EEG dynamics in response to RVS at the frequency of stimulation and ongoing rhythms in the delta, theta, alpha, beta, and gamma bands. Approach. We used electroencephalography (EEG) to study the oscillatory brain dynamics during ...
In humans, visual flicker stimuli of graded frequency (2--90 Hz) elicit an electroencephalographic (...
Contains fulltext : 139811.pdf (publisher's version ) (Open Access)Neural oscillat...
Summary. Human occipital potentials evoked by stimulation with a counterphase flickering grating wer...
Contains fulltext : 149748.pdf (publisher's version ) (Closed access)Objective. St...
Objective. Flickering visual stimulation is known to evoke rhythmic oscillations in the electroencep...
Periodic visual stimulation can induce stable steady-state visual evoked potentials (SSVEPs) distrib...
One common criterion for classifying electrophysiological brain responses is based on the distinctio...
BACKGROUND: One common criterion for classifying electrophysiological brain responses is based on th...
The stability of the steady-state visual evoked potentials (SSVEPs) across trials and subjects makes...
Visual rhythmic stimulation evokes a robust power increase exactly at the stimulation frequency, the...
Background: One common criterion for classifying electrophysiological brain responses is based on th...
AbstractVisual rhythmic stimulation evokes a robust power increase exactly at the stimulation freque...
AbstractNeural processing of dynamic continuous visual input, and cognitive influences thereon, are ...
Periodic visual stimulation can evoke the steady-state visual potential (SSVEP) in the brain. Owing ...
Flicker stimuli of variable frequency (2-90 Hz) elicit a steady-state visual-evoked response ...
In humans, visual flicker stimuli of graded frequency (2--90 Hz) elicit an electroencephalographic (...
Contains fulltext : 139811.pdf (publisher's version ) (Open Access)Neural oscillat...
Summary. Human occipital potentials evoked by stimulation with a counterphase flickering grating wer...
Contains fulltext : 149748.pdf (publisher's version ) (Closed access)Objective. St...
Objective. Flickering visual stimulation is known to evoke rhythmic oscillations in the electroencep...
Periodic visual stimulation can induce stable steady-state visual evoked potentials (SSVEPs) distrib...
One common criterion for classifying electrophysiological brain responses is based on the distinctio...
BACKGROUND: One common criterion for classifying electrophysiological brain responses is based on th...
The stability of the steady-state visual evoked potentials (SSVEPs) across trials and subjects makes...
Visual rhythmic stimulation evokes a robust power increase exactly at the stimulation frequency, the...
Background: One common criterion for classifying electrophysiological brain responses is based on th...
AbstractVisual rhythmic stimulation evokes a robust power increase exactly at the stimulation freque...
AbstractNeural processing of dynamic continuous visual input, and cognitive influences thereon, are ...
Periodic visual stimulation can evoke the steady-state visual potential (SSVEP) in the brain. Owing ...
Flicker stimuli of variable frequency (2-90 Hz) elicit a steady-state visual-evoked response ...
In humans, visual flicker stimuli of graded frequency (2--90 Hz) elicit an electroencephalographic (...
Contains fulltext : 139811.pdf (publisher's version ) (Open Access)Neural oscillat...
Summary. Human occipital potentials evoked by stimulation with a counterphase flickering grating wer...