Perception of auditory time intervals is critical for accurate comprehension of natural sounds like speech and music. However, the neural substrates and mechanisms underlying the representation of time intervals in working memory are poorly understood. In this study, we investigate the brain bases of working memory for time intervals in rhythmic sequences using functional magnetic resonance imaging. We used a novel behavioral paradigm to investigate time-interval representation in working memory as a function of the temporal jitter and memory load of the sequences containing those time intervals. Human participants were presented with a sequence of intervals and required to reproduce the duration of a particular probed interval. We found th...
Learning the timing of rapidly changing sensory events is crucial to construct a reliable representa...
<div><p>When sounds occur with temporally structured patterns, we can feel a rhythm. To memorize a r...
Interval timing and working memory are critical components of cognition that are supported by neural...
AbstractThe brain can hold information about multiple environmental objects in working memory. It is...
The brain can hold information about multiple objects in working memory. It is not known, however, w...
We used functional magnetic resonance imaging (fMRI) to identify brain areas involved in auditory rh...
Research on interval timing strongly implicates the cerebellum and the basal ganglia as part of the ...
Time and memory are inextricably linked, but it is far from clear how event durations and temporal s...
Our perception of time depends on multiple psychological processes that allow us to anticipate event...
Time perception emerges from an interaction among multiple processes that are normally intertwined. ...
In everyday life, temporal information is used for both perception and action, but whether these two...
Learning the timing of rapidly changing sensory events is crucial to construct a reliable representa...
Rhythm is determined solely by the relationship between the time intervals of a series of events. Ps...
SummaryLearning the timing of rapidly changing sensory events is crucial to construct a reliable rep...
Timing is crucial to many aspects of human performance. To better understand its neural underpinning...
Learning the timing of rapidly changing sensory events is crucial to construct a reliable representa...
<div><p>When sounds occur with temporally structured patterns, we can feel a rhythm. To memorize a r...
Interval timing and working memory are critical components of cognition that are supported by neural...
AbstractThe brain can hold information about multiple environmental objects in working memory. It is...
The brain can hold information about multiple objects in working memory. It is not known, however, w...
We used functional magnetic resonance imaging (fMRI) to identify brain areas involved in auditory rh...
Research on interval timing strongly implicates the cerebellum and the basal ganglia as part of the ...
Time and memory are inextricably linked, but it is far from clear how event durations and temporal s...
Our perception of time depends on multiple psychological processes that allow us to anticipate event...
Time perception emerges from an interaction among multiple processes that are normally intertwined. ...
In everyday life, temporal information is used for both perception and action, but whether these two...
Learning the timing of rapidly changing sensory events is crucial to construct a reliable representa...
Rhythm is determined solely by the relationship between the time intervals of a series of events. Ps...
SummaryLearning the timing of rapidly changing sensory events is crucial to construct a reliable rep...
Timing is crucial to many aspects of human performance. To better understand its neural underpinning...
Learning the timing of rapidly changing sensory events is crucial to construct a reliable representa...
<div><p>When sounds occur with temporally structured patterns, we can feel a rhythm. To memorize a r...
Interval timing and working memory are critical components of cognition that are supported by neural...