Functional and Neural Mechanisms of Interval TimingWarren H. Meck Understanding temporal integration by the brain is expected to be among the premier topics to unite systems, cellular, computational, and cognitive neuroscience over the next decade. The phenomenon has been studied in humans and animals, yet until now, there has been no publication to successfully bring together the latest information gathered from |
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Page xviii
... studies of interval timing. In this procedure a stimulus such as a tone or light is turned on to signal the beginning of the interval, and in a proportion of trials the subject is reinforced for the first response it makes after the ...
... studies of interval timing. In this procedure a stimulus such as a tone or light is turned on to signal the beginning of the interval, and in a proportion of trials the subject is reinforced for the first response it makes after the ...
Page xxi
... studies, specialized techniques have been developed to study interval timing in humans using the brain imaging technologies of functional magnetic resonance imaging and event-related scalp potentials (see Brannon and Roitman, this ...
... studies, specialized techniques have been developed to study interval timing in humans using the brain imaging technologies of functional magnetic resonance imaging and event-related scalp potentials (see Brannon and Roitman, this ...
Page xxx
... studies of central nervous system electrophysiology have suggested an important role for oscillatory neuronal activity in sensory perception, sensorimotor integration, and movement timing. These studies have demonstrated significant ...
... studies of central nervous system electrophysiology have suggested an important role for oscillatory neuronal activity in sensory perception, sensorimotor integration, and movement timing. These studies have demonstrated significant ...
Page 51
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Contents
3 | |
Timing without a Clock | 23 |
Implications for OscillatorBased Representations of Interval and Circadian Clocks | 61 |
4 Toward a Unified Theory of Animal Event Timing | 77 |
5 Interval Timing and Optimal Foraging | 113 |
6 Nonverbal Representations of Time and Number in Animals and Human Infants | 143 |
7 Temporal Experience and Timing in Children | 183 |
Attention Clock Speed and Memory | 209 |
13 Electrophysiological Correlates of Interval Timing | 339 |
14 Importance of Frontal Motor Cortex in Divided Attention and Simultaneous Temporal Processing | 351 |
Anatomically Separate Systems or Distributed Processing? | 371 |
CorticoStriatal Mechanisms of Interval Timing and Birdsong | 393 |
17 Neuroimaging Approaches to the Study of Interval Timing | 419 |
18 Electrophysiological Evidence for Specific Processing of Temporal Information in Humans | 439 |
19 Cerebellar and Basal Ganglia Contributions to Interval Timing | 457 |
From Empirical Data to Timing Theory | 485 |
9 Attentional TimeSharing in Interval Timing | 235 |
Attention and Interval Timing in Older Adults | 261 |
11 Neurogenetics of Interval Timing | 297 |
12 Dopaminergic Mechanisms of Interval Timing and Attention | 317 |
An Image of Human Neural Timing | 515 |
Afterword | 533 |
Index | 541 |
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