Background: We aimed to investigate the separability of the neural correlates of 2 types of motor imagery, self and third person (actions owned by the participant himself vs. another individual). If possible this would allow for the development of BCI interfaces to train disorders of action and intention understanding beyond simple imitation, such as autism. Methods: We used EEG recordings from 20 healthy participants, as well as electrocorticography (ECoG) in one, based on a virtual reality setup. To test feasibility of discrimination between each type of imagery at the single trial level, time-frequency and source analysis were performed and further assessed by data-driven statistical classification using Support Vector Machines. ...
This research examined the extent to which ‘Self’ and ‘Other’ belief-attribution processes could be ...
In this dataset, 55 novice BCI users participated in a two-class left versus right hand motor imager...
The understanding of the neurophysiological mechanisms responsible for performing motor imagery (MI)...
Background: We aimed to investigate the separability of the neural correlates of 2 types of motor im...
The perception of self and others is a key aspect of social cognition. In order to investigate the n...
The perception of self and others is a key aspect of social cognition. In order to investigate the n...
Theory of Mind (ToM) refers to the ability to compute and attribute mental states to oneself and oth...
Objective We sought to determine whether the sensorimotor rhythms (SMR) elicited during motor ima...
Electroencephalography (EEG) has recently been considered for use in rehabilitation of people with m...
Purpose: In brain-computer interfaces (BCIs), electrical brain signals during motor imagery are util...
Brain computer interfaces (BCIs) can provide individuals with severe motor disorders a means of comm...
The question how the brain distinguishes between information about self and others is of fundamental...
Brain-computer interfaces (BCIs) translate oscillatory electroencephalogram (EEG) patterns into acti...
Brain-computer interfaces (BCIs) translate oscillatory electroencephalogram (EEG) patterns into acti...
This thesis comprises a collection of papers that describe a process of hypothesis development, foll...
This research examined the extent to which ‘Self’ and ‘Other’ belief-attribution processes could be ...
In this dataset, 55 novice BCI users participated in a two-class left versus right hand motor imager...
The understanding of the neurophysiological mechanisms responsible for performing motor imagery (MI)...
Background: We aimed to investigate the separability of the neural correlates of 2 types of motor im...
The perception of self and others is a key aspect of social cognition. In order to investigate the n...
The perception of self and others is a key aspect of social cognition. In order to investigate the n...
Theory of Mind (ToM) refers to the ability to compute and attribute mental states to oneself and oth...
Objective We sought to determine whether the sensorimotor rhythms (SMR) elicited during motor ima...
Electroencephalography (EEG) has recently been considered for use in rehabilitation of people with m...
Purpose: In brain-computer interfaces (BCIs), electrical brain signals during motor imagery are util...
Brain computer interfaces (BCIs) can provide individuals with severe motor disorders a means of comm...
The question how the brain distinguishes between information about self and others is of fundamental...
Brain-computer interfaces (BCIs) translate oscillatory electroencephalogram (EEG) patterns into acti...
Brain-computer interfaces (BCIs) translate oscillatory electroencephalogram (EEG) patterns into acti...
This thesis comprises a collection of papers that describe a process of hypothesis development, foll...
This research examined the extent to which ‘Self’ and ‘Other’ belief-attribution processes could be ...
In this dataset, 55 novice BCI users participated in a two-class left versus right hand motor imager...
The understanding of the neurophysiological mechanisms responsible for performing motor imagery (MI)...