Journal ArticleDOI
Distinct systems for automatic and cognitively controlled time measurement: evidence from neuroimaging.
TLDR
It is argued that careful analysis of this literature provides evidence for separate neural timing systems associated with opposing task characteristics, the 'automatic' system draws mainly upon motor circuits and the 'cognitively controlled' system depends upon prefrontal and parietal regions.About:
This article is published in Current Opinion in Neurobiology.The article was published on 2003-04-01. It has received 779 citations till now.read more
Citations
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Journal ArticleDOI
Whatever next? Predictive brains, situated agents, and the future of cognitive science
TL;DR: This target article critically examines this "hierarchical prediction machine" approach, concluding that it offers the best clue yet to the shape of a unified science of mind and action.
Journal ArticleDOI
What makes us tick? Functional and neural mechanisms of interval timing
Catalin V. Buhusi,Warren H. Meck +1 more
TL;DR: It is proposed that the brain represents time in a distributed manner and tells the time by detecting the coincidental activation of different neural populations.
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When the brain plays music: auditory–motor interactions in music perception and production
TL;DR: This work reviews the cognitive neuroscience literature of both motor and auditory domains, highlighting the value of studying interactions between these systems in a musical context, and proposes some ideas concerning the role of the premotor cortex in integration of higher order features of music with appropriately timed and organized actions.
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Sensorimotor synchronization: a review of the tapping literature.
TL;DR: This review summarizes theories and empirical findings obtained with the tapping task on the role of intention, rate limits, the negative mean asynchrony, variability, models of error correction, perturbation studies, neural correlates of SMS, and SMS in musical contexts.
Journal ArticleDOI
Sensorimotor synchronization: A review of recent research (2006–2012)
Bruno H. Repp,Yi-Huang Su +1 more
TL;DR: It is evident that much new knowledge about SMS has been acquired in the last 7 years, and more recent research in what appears to be a burgeoning field is surveyed.
References
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Journal ArticleDOI
Brain activation induced by estimation of duration: a PET study.
Pierre Maquet,Helga Lejeune,Viviane Pouthas,Michel Bonnet,Laurence Casini,Françoise Macar,M. Timsit-Berthier,Franck Vidal,André Ferrara,Christian Degueldre,L. Quaglia,Guy Delfiore,A. Luxen,Roger P. Woods,John C. Mazziotta,Dominique Comar +15 more
TL;DR: It is proposed that these cortical maps are best explained by the recruitment of visual attention and memory structures, which play a major role in prospective time judgements as indicated by behavioral studies.
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fMRI study of bimanual coordination.
TL;DR: Hemodynamic responses as measured with functional magnetic resonance imaging in the primary somato-motor cortex (SMC) showed that during bimanual activity the SMC contralateral to the hand taking the faster rate was more strongly activated than theSMC contralsateral to handTaking the slower rate.
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"Beyond the fields we know...": exploring and developing scalar timing theory.
TL;DR: The article suggests a number of possible experiments with humans, some based on pilot work which is described, that may clarify all three areas of scalar timing theory, including questions related to its neurobiological basis, whether or not data always conform to SET predictions.
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On dopaminergic modulation of temporal information processing.
TL;DR: The differential effects of haloperidol and remoxipride on performance on time perception suggest that D2 receptor activity in the basal ganglia may play a critical role in timing of brief durations in the range of milliseconds.
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Cortical Networks Recruited for Time Perception: A Monkey Positron Emission Tomography (PET) Study
Hirotaka Onoe,Masashi Komori,Kayo Onoe,Hajime Takechi,Hajime Takechi,Hideo Tsukada,Yasuyoshi Watanabe,Yasuyoshi Watanabe +7 more
TL;DR: The results indicate that a neural network composed of the posterior inferior parietal cortex to the DLPFC plays a crucial role in the temporal monitoring process in time perception.