AbstractAllocation of attention during goal-directed behavior entails simultaneous processing of relevant and attenuation of irrelevant information. How the brain delegates such processes when confronted with dynamic (biological motion) stimuli and harnesses relevant sensory information for sculpting prospective responses remains unclear. We analyzed neuromagnetic signals that were recorded while participants attentively tracked an actor's pointing movement that ended at the location where subsequently the response-cue indicated the required response. We found the observers' spatial allocation of attention to be dynamically reflected in lateralized parieto-occipital alpha (8–12Hz) activity and to have a lasting influence on motor preparatio...
Mechanisms of attention assign priority to sensory inputs on the basis of current task goals. Previo...
In sensorimotor integration, the brain needs to decide how its predictions should accommodate novel ...
Lateralization in the desynchronization of anticipatory occipitoparietal alpha (8-12 Hz) oscillation...
AbstractAllocation of attention during goal-directed behavior entails simultaneous processing of rel...
Allocation of attention during goal-directed behavior entails simultaneous processing of relevant an...
Monitoring actions is essential for goal-directed behavior. However, as opposed to short-lasting, an...
The adaptive and flexible ability of the human brain to preference the processing of salient environ...
Successfully interpreting and navigating our natural visual environment requires us to track its dyn...
Contains fulltext : 99570-OA.pdf (publisher's version ) (Open Access)Our perceptio...
Spatial attention provides a mechanism for, respectively, enhancing relevant and suppressing irrelev...
It is well established that voluntarily shifting attention to the expected location of an impending ...
Observing moving body parts can automatically activate topographically corresponding motor represent...
Systems and cognitive neuroscience aim at understanding the neurophysiological mechanisms that under...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8–13...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8-13...
Mechanisms of attention assign priority to sensory inputs on the basis of current task goals. Previo...
In sensorimotor integration, the brain needs to decide how its predictions should accommodate novel ...
Lateralization in the desynchronization of anticipatory occipitoparietal alpha (8-12 Hz) oscillation...
AbstractAllocation of attention during goal-directed behavior entails simultaneous processing of rel...
Allocation of attention during goal-directed behavior entails simultaneous processing of relevant an...
Monitoring actions is essential for goal-directed behavior. However, as opposed to short-lasting, an...
The adaptive and flexible ability of the human brain to preference the processing of salient environ...
Successfully interpreting and navigating our natural visual environment requires us to track its dyn...
Contains fulltext : 99570-OA.pdf (publisher's version ) (Open Access)Our perceptio...
Spatial attention provides a mechanism for, respectively, enhancing relevant and suppressing irrelev...
It is well established that voluntarily shifting attention to the expected location of an impending ...
Observing moving body parts can automatically activate topographically corresponding motor represent...
Systems and cognitive neuroscience aim at understanding the neurophysiological mechanisms that under...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8–13...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8-13...
Mechanisms of attention assign priority to sensory inputs on the basis of current task goals. Previo...
In sensorimotor integration, the brain needs to decide how its predictions should accommodate novel ...
Lateralization in the desynchronization of anticipatory occipitoparietal alpha (8-12 Hz) oscillation...