Article Number: 118534Recognizing the actions of others depends on segmentation into meaningful events. After decades of research in this area, it remains still unclear how humans do this and which brain areas support underlying processes. Here we show that a computer vision-based model of touching and untouching events can predict human behavior in segmenting object manipulation actions with high accuracy. Using this computational model and functional Magnetic Resonance Imaging (fMRI), we pinpoint the neural networks underlying this segmentation behavior during an implicit action observation task. Segmentation was announced by a strong increase of visual activity at touching events followed by the engagement of frontal, hippocampal and ins...
By looking at a person’s hands, one can often tell what the person is going to do next, how his/her ...
Recent neuroimaging evidence in macaques has shown that the neural system underlying the observation...
The present study investigates the temporal dynamics of the brain activity predicting the sensory ou...
Recognizing the actions of others depends on segmentation into meaningful events. After decades of r...
Contains fulltext : 55084.pdf (publisher's version ) (Closed access)Many of our da...
When we observe an action, we recognize meaningful action steps that help us to predict probable upc...
Item does not contain fulltextDuring social interactions, how do we predict what other people are go...
During social interactions, how do we predict what other people are going to do next? One view is th...
Objects are reminiscent of actions often performed with them: knife and apple remind us on peeling t...
Previous behavioural and neuroimaging data on humans demonstrated that kinematics and the level of b...
Looking at a person's hands one often can tell what the person is going to do next, how his/her hand...
Understanding human actions in visual data is tied to advances in complementary research areas inclu...
Anticipating the sensorimotor consequences of an action for both self and other is fundamental for a...
The visual recognition of actions is critical for humans when interacting with their physical and so...
Consistent evidence suggests that the way we reach and grasp an object is modulated not only by obje...
By looking at a person’s hands, one can often tell what the person is going to do next, how his/her ...
Recent neuroimaging evidence in macaques has shown that the neural system underlying the observation...
The present study investigates the temporal dynamics of the brain activity predicting the sensory ou...
Recognizing the actions of others depends on segmentation into meaningful events. After decades of r...
Contains fulltext : 55084.pdf (publisher's version ) (Closed access)Many of our da...
When we observe an action, we recognize meaningful action steps that help us to predict probable upc...
Item does not contain fulltextDuring social interactions, how do we predict what other people are go...
During social interactions, how do we predict what other people are going to do next? One view is th...
Objects are reminiscent of actions often performed with them: knife and apple remind us on peeling t...
Previous behavioural and neuroimaging data on humans demonstrated that kinematics and the level of b...
Looking at a person's hands one often can tell what the person is going to do next, how his/her hand...
Understanding human actions in visual data is tied to advances in complementary research areas inclu...
Anticipating the sensorimotor consequences of an action for both self and other is fundamental for a...
The visual recognition of actions is critical for humans when interacting with their physical and so...
Consistent evidence suggests that the way we reach and grasp an object is modulated not only by obje...
By looking at a person’s hands, one can often tell what the person is going to do next, how his/her ...
Recent neuroimaging evidence in macaques has shown that the neural system underlying the observation...
The present study investigates the temporal dynamics of the brain activity predicting the sensory ou...