References

Alexander, G.E., DeLong, M.R., and Strick, P.L., Parallel organization of functionally segregated circuits linking basal ganglia and cortex, Annu. Rev. Neurosci., 9, 357-381, 1986.

Aparicio, P., Connor, B., Diedrichsen, J., and Ivry, R.B., The Effects of Focal Lesions of the Basal Ganglia on Repetitive Tapping Tasks, paper presented at the Cognitive Neuroscience Society meeting, San Fransisco, CA, 2002.

Artieda, J., Pastor, M.A., Lacruz, F., and Obeso, J.A., Temporal discrimination is abnormal in Parkinson's disease, Brain, 115, 199-210, 1992.

Aschersleben, G. and Prinz, W., Synchronizing actions with events: the role of sensory information, Percept. Psychophys, 57, 305-317, 1995.

Billon, M., Semjen, A., Cole, J., and Gauthier, G., The role of sensory information in the production of periodic finger-tapping sequences, Exp. Brain Res, 110, 117-130, 1996.

Casini, L. and Ivry, R.B., Effects of divided attention on temporal processing in patients with lesions of the cerebellum or frontal lobe, Neuropsychology, 13, 10-21, 1999.

Duchek, J.M., Balota, D.A., and Ferraro, F.R., Component analysis of a rhythmic finger tapping task in individuals with senile dementia of the Alzheimer type and in individuals with Parkinson's disease, Neuropsychology, 8, 218-226, 1994.

Dunlap, K., Reactions on rhythmic stimuli, with attempt to synchronize, Psychol. Rev., 17, 399-416, 1910.

Fiala, J.C., Grossberg, S., and Bullock, D., Metabotropic glutamate receptor activation in cerebellar Purkinje cells as substrate for adaptive timing of the classically conditioned eye-blink response, J. Neurosci, 16, 3760-3774, 1996.

Flament, D. and Ebner, T.J., The cerebellum as comparator: increases in cerebellar activity during motor learning may reflect its role as part of an error detection/correction mechanism, Behav. Brain Sci., 19, 447-448, 503-527, 1996.

Fortin, C. and Couture, E., Short-term memory and time estimation: beyond the 2-second "critical" value, Can. J. Exp. Psychol., 56, 120-127, 2002.

Fraisse, P., Les synchronisations sensori-motrices aux rythmes [The sensorimotor synchronization of rhythms], in Anticipation et comportment, Requin, J., Ed., Centre National, Paris, 1980.

Fraisse, P. and Voillaume, C., [The frame of reference of the subject in synchronization and pseudosynchronization], Annee Psychol., 71, 359-369, 1971.

Franz, E.A., Ivry, R.B., and Helmuth, L.L., Reduced timing variability in patients with unilateral cerebellar lesions during bimanual movements, J. Cognit. Neurosci., 8, 107-118, 1996.

Gibbon, J., Malapani, C., Dale, C.L., and Gallistel, C.R., Toward a neurobiology of temporal cognition: advances and challenges, Curr. Opin. Neurobiol., 7, 170-184, 1997.

Gilden, D.L., Thornton, T., and Mallon, M.W., 1/f noise in human cognition, Science, 267, 1837-1839, 1995.

Haggard, P., Clark, S., and Kalogeras, J., Voluntary action and conscious awareness, Nat. Neurosci., 5, 382-385, 2002.

Harrington, D.L., Haaland, K.Y., and Hermanowitz, N., Temporal processing in the basal ganglia, Neuropsychology, 12, 3-12, 1998a.

Harrington, D.L., Haaland, K.Y., and Knight, R.T., Cortical networks underlying mechanisms of time perception, J. Neurosci., 18, 1085-1095, 1998b.

Hary, D. and Moore, G.P., Temporal tracking and synchronization strategies, Hum. Neurobiol., 4, 73-79, 1985.

Hary, D. and Moore, G.P., Synchronizing human movement with an external clock source, Biol. Cybern., 56, 305-311, 1987.

Ivry, R., Cerebellar timing systems, Int. Rev. Neurobiol., 41, 555-573, 1997.

Ivry, R.B., The representation of temporal information in perception and motor control, Curr. Opin. Neurobiol., 6, 851-857, 1996.

Ivry, R.B. and Hazeltine, R.E., Perception and production of temporal intervals across a range of durations: evidence for a common timing mechanism, J. Exp. Psychol. Hum. Percept. Perform, 21, 3-18, 1995.

Ivry, R.B. and Keele, S.W., Timing functions of the cerebellum, J. Cognit. Neurosci, 1, 136-152, 1989.

Ivry, R.B., Keele, S.W., and Diener, H.C., Dissociation of the lateral and medial cerebellum in movement timing and movement execution, Exp. Brain Res, 73, 167-180, 1988.

Ivry, R.B. and Richardson, T., Temporal control and coordination: the multiple timer model, Brain Cognit, 48, 117-132, 2002.

Ivry, R.B., Spencer, R.M., Zelaznik, H.N., and Diedrichsen, J., The cerebellum and event timing, in Annals of the New York Academy of Sciences: New Directions in Cerebellar Research, Highstein, S.M. and Thach, W., Eds., in press.

Jäncke, L., Loose, R., Lutz, K., Specht, K., and Shah, N.J., Cortical activations during paced finger-tapping applying visual and auditory pacing stimuli, Brain Res. Cognit. Brain Res, 10, 51-66, 2000.

Jueptner, M., Flerich, L., Weiller, C., Mueller, S.P., and Diener, H.C., The human cerebellum and temporal information processing: results from a PET experiment, Neuroreport, 7, 2761-2765, 1996.

Jueptner, M., Rijntjes, M., Weiller, C., Faiss, J.H., Timmann, D., Mueller, S.P., and Diener, H.C., Localization of a cerebellar timing process using PET, Neurology, 45, 1540-1545, 1995.

Kawashima, R., Okuda, J., Umetsu, A., Sugiura, M., Inoue, K., Suzuki, K., Tabuchi, M., Tsukiura, T., Narayan, S.L., Nagasaka, T., Yanagawa, I., Fujii, T., Takahashi, S., Fukuda, H., and Yamadori, A., Human cerebellum plays an important role in memory-timed finger movement: an fMRI study, J. Neurophysiol., 83, 1079-1087, 2000.

Kawato, M., Furukawa, K., and Suzuki, R., A hierarchical neural-network model for control and learning of voluntary movement, Biol. Cybern., 57, 169-185, 1987.

Keele, S.W. and Ivry, R.I., Modular analysis of timing in motor skill, in The Psychology of Learning and Motivation: Advances in Research and Theory, Vol. 21, Bower, G.H. et al., Eds., Academic Press, San Diego, CA, 1987, pp. 183-228.

Lawrence, A.D., Error correction and the basal ganglia: similar computations for action, cognition and emotion? Trends Cognit. Sci., 4, 365-367, 2000.

Malapani, C., Dubois, B., Rancurel, G., and Gibbon, J., Cerebellar dysfunctions of temporal processing in the seconds range in humans, Neurorep. Int. J. Rapid Commn. Res. Neurosci., 9, 3907-3912, 1998.

Mangels, J.A. and Ivry, R.B., Time perception, in The Handbook of Cognitive Neuropsychology: What Deficits Reveal about the Human Mind, Rapp, B., Ed., Psychology Press/Taylor and Francis, Philadelphia, 2001, pp. 467-493.

Mangels, J.A., Ivry, R.B., and Shimizu, N., Dissociable contributions of the prefrontal and neocerebellar cortex to time perception, Cognit. Brain Res., 7, 15-39, 1998.

Mates, J., A model of synchronization of motor acts to a stimulus sequence: I. Timing and error corrections, Biol. Cybern., 70, 463-473, 1994a.

Mates, J., A model of synchronization of motor acts to a stimulus sequence: II. Stability analysis, error estimation and simulations, Biol. Cybern, 70, 475-484, 1994b.

Mates, J., Mueller, U., Radil, T., and Poeppel, E., Temporal integration in sensorimotor synchronization, J. Cognit. Neurosci., 6, 332-340, 1994.

Meck, W.H., Neuropharmacology of timing and time perception, Brain Res. Cognit. Brain Res, 3, 227-242, 1996.

Medina, J.F., Garcia, K.S., Nores, W.L., Taylor, N.M., and Mauk, M.D., Timing mechanisms in the cerebellum: testing predictions of a large-scale computer simulation, J. Neurosci, 20, 5516-5525, 2000.

Middleton, F.A. and Strick, P.L., Cerebellar output channels, in The Cerebellum and Cognition, Vol. 41, Schahmann, J.D., Ed., Academic Press, San Diego, CA, 1997, pp. 31-60.

Nichelli, P., Alway, D., and Grafman, J., Perceptual timing in cerebellar degeneration, Neu-ropsychologia, 34, 863-871, 1996.

O'Boyle, D.J., Freeman, J.S., and Cody, F.W., The accuracy and precision of timing of self-paced, repetitive movements in subjects with Parkinson's disease, Brain, 119, 51-70, 1996.

Pastor, M.A., Jahanshahi, M., Artieda, J., and Obeso, J.A., Performance of repetitive wrist movements in Parkinson's disease, Brain, 115, 875-891, 1992.

Penhune, V.B., Zatorre, R.J., and Evans, A.C., Cerebellar contributions to motor timing: a PET study of auditory and visual rhythm reproduction, J. Cognit. Neurosci, 10, 752-766, 1998.

Pressing, J., Error correction processes in temporal pattern production, J. Math. Psychol., 42, 63-101, 1998.

Pressing, J., The referential dynamics of cognition and action, Psychol. Rev, 106, 714-747, 1999.

Pressing, J. and Jolley-Rogers, G., Spectral properties of human cognition and skill, Biol. Cybern, 76, 339-347, 1997.

Rammsayer, T.H., On dopaminergic modulation of temporal information processing, Biol. Psychol, 36, 209-222, 1993.

Rao, S.M., Harrington, D.L., Haaland, K.Y., Bobholz, J.A., Cox, R.W., and Binder, J.R., Distributed neural systems underlying the timing of movements, J. Neurosci., 17, 5528-5535, 1997.

Repp, B.H., Processes underlying adaptation to tempo changes in sensorimotor synchronization, Hum. Mov. Sci., 20, 277-312, 2001.

Robertson, S.D., Zelaznik, H.N., Lantero, D.A., Bojczyk, K.G., Spencer, R.M., Doffin, J.G., and Schneidt, T., Correlations for timing consistency among tapping and drawing tasks: evidence against a single timing process for motor control, J. Exp. Psychol. Hum. Percept. Perform, 25, 1316-1330, 1999.

Schulze, H.H. and Vorberg, D., Linear phase correction models for synchronization: parameter identification and estimation of parameters, Brain Cognit., 48, 80-97, 2002.

Shumway, R.H. and Stoffer, D.S., Time Series Analysis and Its Applications, Springer, New York, 2000.

Smith, M.A., Brandt, J., and Shadmehr, R., Motor disorder in Huntington's disease begins as a dysfunction in error feedback control, Nature, 403, 544-549, 2000.

Strick, P.L., Dum, R.P., and Picard, N., Macro-organization of the circuits connecting the basal ganglia with the cortical motor areas, in Models of Information Processing in the Basal Ganglia, Houk, J.C., Davis, J.L., and Beiser, D.G., Eds., MIT Press, Cambridge, MA, 1995, pp. 117-130.

Treisman, M., Temporal discrimination and the difference interval: implications for a model of the 'internal clock,' Psychol. Monogr., 77, 1-13, 1963.

Vorberg, D. and Schulze, H.H., Linear phase-correction in synchronization: predictions, parameter estimation and simulations, J. Math. Psychol., 46, 56-87, 2002.

Vorberg, D. and Wing, A., Modeling variability and dependence in timing, in Handbook of Perception and Action, Vol. 2, Motor Skills, Heuer, H. and Keele, S.W., Eds., Academic Press, San Diego, CA, 1996, pp. 181-262.

Wilson, S.J., Pressing, J., and Wales, R.J., Modeling rhythmic function in a musician post-stroke, Neuropsychologia, in press.

Wing, A., The long and short of timing in response sequences, in Tutorials in Motor Behavior, Stelmach, G. and Requin, J., Eds., North-Holland, New York, 1980, pp. 469-484.

Wing, A.M., Keele, S., and Margolin, D.I., Motor disorder and the timing of repetitive movements, Ann. N.Y. Acad. Sci., 423, 183-192, 1984.

Wing, A.M. and Kristofferson, A.B., Response delays and the timing of discrete motor responses, Percept. Psychophys., 14, 5-12, 1973.

Wittmann, M., Time perception and temporal processing levels of the brain, Chronobiol. Int., 16, 17-32, 1999.

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