<div><p>When sounds occur with temporally structured patterns, we can feel a rhythm. To memorize a rhythm, perception of its temporal patterns and organization of them into a hierarchically structured sequence are necessary. On the other hand, rhythm perception can often cause unintentional body movements. Thus, we hypothesized that rhythm information can be manifested in two different ways; temporal and motor representations. The motor representation depends on effectors, such as the finger or foot, whereas the temporal representation is effector-independent. We tested our hypothesis with a working memory paradigm to elucidate neuronal correlates of temporal or motor representation of rhythm and to reveal the neural networks associated wit...
<p>During rhythm encoding, the bilateral inferior frontal gyri (IFGs) and right inferior parietal lo...
Perception and actions can be tightly coupled; but does a perceptual event dissociated from action p...
We investigated whether the temporal structure of movement sequences can be represented and learned ...
<p>A) Results of second conjunction analysis. Cortical brain regions demonstrating common brain acti...
We used functional magnetic resonance imaging (fMRI) to identify brain areas involved in auditory rh...
Recent studies reported an involvement of motor/premotor brain areas during the perception of rhythm...
When listening to musical rhythm, humans perceive and spontaneously move to a periodic pulse-like me...
Performance of externally paced rhythmic movements requires brain and behavioral integration of sens...
Perception and actions can be tightly coupled; but does a perceptual event dissociated from action p...
Using functional magnetic resonance imaging (fMRI), we studied the neural correlates of the complexi...
Performance of externally paced rhythmic movements requires brain and behavioral integration of sens...
Using functional magnetic resonance imaging (fMRI), we studied the neural correlates of the complexi...
Perception of auditory time intervals is critical for accurate comprehension of natural sounds like ...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
In everyday life, temporal information is used for both perception and action, but whether these two...
<p>During rhythm encoding, the bilateral inferior frontal gyri (IFGs) and right inferior parietal lo...
Perception and actions can be tightly coupled; but does a perceptual event dissociated from action p...
We investigated whether the temporal structure of movement sequences can be represented and learned ...
<p>A) Results of second conjunction analysis. Cortical brain regions demonstrating common brain acti...
We used functional magnetic resonance imaging (fMRI) to identify brain areas involved in auditory rh...
Recent studies reported an involvement of motor/premotor brain areas during the perception of rhythm...
When listening to musical rhythm, humans perceive and spontaneously move to a periodic pulse-like me...
Performance of externally paced rhythmic movements requires brain and behavioral integration of sens...
Perception and actions can be tightly coupled; but does a perceptual event dissociated from action p...
Using functional magnetic resonance imaging (fMRI), we studied the neural correlates of the complexi...
Performance of externally paced rhythmic movements requires brain and behavioral integration of sens...
Using functional magnetic resonance imaging (fMRI), we studied the neural correlates of the complexi...
Perception of auditory time intervals is critical for accurate comprehension of natural sounds like ...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
In everyday life, temporal information is used for both perception and action, but whether these two...
<p>During rhythm encoding, the bilateral inferior frontal gyri (IFGs) and right inferior parietal lo...
Perception and actions can be tightly coupled; but does a perceptual event dissociated from action p...
We investigated whether the temporal structure of movement sequences can be represented and learned ...