A traditional model of emotion cannot explain the differences in brain activities between two discrete emotions that are similar in the valence-arousal coordinate space. The current study elicited two positive emotions (amusement and tenderness) and two negative emotions (anger and fear) that are similar in both valence and arousal dimensions to examine the differences in brain activities in these emotional states. Frontal electroencephalographic (EEG) asymmetry and midline power in three bands (theta, alpha and beta) were measured when participants watched affective film excerpts. Significant differences were detected between tenderness and amusement on FP1/FP2 theta asymmetry, F3/F4 theta and alpha asymmetry. Significant differences betwe...
Resting frontal electroencephalographic (EEG) alpha-asymmetry was measured in 16 participants to pre...
Feature extraction has been a crucial and challenging task for EEG-based BCI applications mainly due...
The relations between the asymmetry of hemispheric activity using the EEG rhythms in resting and bot...
A traditional model of emotion cannot explain the differences in brain activities between two discre...
Emotions are processed asymmetrically by the human brain. Frontal alpha asymmetry (FAA) as measured ...
This article assessed whether esting electroenchephalographic (EEG) asymmetry inanterior e-gions of ...
Objective: Brain asymmetry in response to emotional facial expressions is a main topic in emotion do...
The present mini-review was aimed at exploring the frontal EEG asymmetry of mood. With respect to em...
Frontal EEG asymmetry appears to serve as (1) an individual difference variable related to emotional...
Asymmetry in comprehension of facial expression of emotions was explored in the present study by ana...
Resting frontal alpha asymmetry was measured with an electroencephalogram in 28 volunteers to predic...
The neural basis of emotional processing has been largely investigated in constrained spatial enviro...
Frontal electroencephalographic (EEG) asymmetry is a reliable marker of psychopathology vulnerabilit...
Frontal alpha asymmetry is often used as a metric to compare activation between homologous frontal b...
Recent theoretical accounts of emotion regulation assign an important role in this process to the pr...
Resting frontal electroencephalographic (EEG) alpha-asymmetry was measured in 16 participants to pre...
Feature extraction has been a crucial and challenging task for EEG-based BCI applications mainly due...
The relations between the asymmetry of hemispheric activity using the EEG rhythms in resting and bot...
A traditional model of emotion cannot explain the differences in brain activities between two discre...
Emotions are processed asymmetrically by the human brain. Frontal alpha asymmetry (FAA) as measured ...
This article assessed whether esting electroenchephalographic (EEG) asymmetry inanterior e-gions of ...
Objective: Brain asymmetry in response to emotional facial expressions is a main topic in emotion do...
The present mini-review was aimed at exploring the frontal EEG asymmetry of mood. With respect to em...
Frontal EEG asymmetry appears to serve as (1) an individual difference variable related to emotional...
Asymmetry in comprehension of facial expression of emotions was explored in the present study by ana...
Resting frontal alpha asymmetry was measured with an electroencephalogram in 28 volunteers to predic...
The neural basis of emotional processing has been largely investigated in constrained spatial enviro...
Frontal electroencephalographic (EEG) asymmetry is a reliable marker of psychopathology vulnerabilit...
Frontal alpha asymmetry is often used as a metric to compare activation between homologous frontal b...
Recent theoretical accounts of emotion regulation assign an important role in this process to the pr...
Resting frontal electroencephalographic (EEG) alpha-asymmetry was measured in 16 participants to pre...
Feature extraction has been a crucial and challenging task for EEG-based BCI applications mainly due...
The relations between the asymmetry of hemispheric activity using the EEG rhythms in resting and bot...