Possible Papers for Presentation

 

There is no requirement to pick a paper from this list if you are presenting. These are just papers that I though might be interesting from what I saw in the title and abstract. This list will grow as I add papers to it.

 

Basham, M. E., Nordeen, E. J., & Nordeen, K. W. (1996).

Blockade of nmda receptors in the anterior forebrain impairs sensory acquisition in the zebra finch (poephila guttata).

Neurobiology of Learning and Memory, 66(3), 295-304.

 

Egnor, S. E. R., Iguina, C. G., & Hauser, M. D. (2006).

Perturbation of auditory feedback causes systematic perturbation in vocal structure in adult cotton-top tamarins.

Journal of Experimental Biology, 209(Pt 18), 3652-3663.

 

Purcell, D. W., & Munhall, K. G. (2006).

Adaptive control of vowel formant frequency: Evidence from real-time formant manipulation.

Journal of the Acoustical Society of America, 120(2), 966-977.

 

Scharff, C., & Haesler, S. (2005).

An evolutionary perspective on foxp2: Strictly for the birds?

Current Opinion in Neurobiology, 15(6), 694-703.

 

Szurhaj, W., Labyt, E., Bourriez, J.-L., Kahane, P., Chauvel, P., Mauguiere, F., et al. (2006).

Relationship between intracerebral gamma oscillations and slow potentials in the human sensorimotor cortex.

European Journal of Neuroscience, 24(3), 947-954.

 

Doupe, A. J., & Kuhl, P. K. (1999).

Birdsong and human speech: Common themes and mechanisms.

Annual Review of Neuroscience, 22, 567-631.

 

Mooney, R. (2004).

Synaptic mechanisms for auditory-vocal integration and the correction of vocal errors.

Annals of the New York Academy of Sciences, 1016, 476-494.

 

 Hamilton, A. F. d. C., Wolpert, D. M., Frith, U., & Grafton, S. T. (2006).

Where does your own action influence your perception of another person's action in the brain?

Neuroimage, 29(2), 524-535.

 

Liberman, A. M., & Whalen, D. H. (2000).

On the relation of speech to language.

Trends in Cognitive Sciences, 4(5), 187-196.

 

Bangert, M., Peschel, T., Schlaug, G., Rotte, M., Drescher, D., Hinrichs, H., et al. (2006).

Shared networks for auditory and motor processing in professional pianists: Evidence from fmri conjunction.

Neuroimage, 30(3), 917-926.

 

Bangert, M., & Altenmuller, E. O. (2003).

Mapping perception to action in piano practice: A longitudinal dc-eeg study.

BMC Neuroscience, 4, 26.

 

Arzy, S., Seeck, M., Ortigue, S., Spinelli, L., & Blanke, O. (2006).

Induction of an illusory shadow person.

Nature, 443(7109), 287

 

Ohyama, T., Nores, W. L., Murphy, M., & Mauk, M. D. (2003).

What the cerebellum computes.

Trends in Neurosciences, 26(4), 222-227.

 

Fenoy, A. J., Severson, M. A., Volkov, I. O., Brugge, J. F., & Howard, M. A., 3rd. (2006).

Hearing suppression induced by electrical stimulation of human auditory cortex.

Brain Research, In Press.

 

Ru, P., Chi, T., & Shamma, S. (2003).

The synergy between speech production and perception.

Journal of the Acoustical Society of America, 113(1), 498-515.

 

Contreras-Vidal, J. L. (2006).

Development of forward models for hand localization and movement control in 6- to 10-year-old children.

Human Movement Science, In Press.

 

Kagerer, F. A., Contreras-Vidal, J. L., Bo, J., & Clark, J. E. (2006).

Abrupt, but not gradual visuomotor distortion facilitates adaptation in children with developmental coordination disorder.

Human Movement Science, In Press.

 

Hallett, M. (2006).

Pathophysiology of writer's cramp.

Human Movement Science, In Press.

 

Stetson, C., Cui, X., Montague, P. R., & Eagleman, D. M. (2006).

Motor-sensory recalibration leads to an illusory reversal of action and sensation.

Neuron, 51(5), 651-659.

 

Fujisaki, W., Shimojo, S., Kashino, M., & Nishida, S. y. (2004).

Recalibration of audiovisual simultaneity.

Nature Neuroscience, 7(7), 773-778.

 

Jueptner, M., & Weiller, C. (1998).

A review of differences between basal ganglia and cerebellar control of movements as revealed by functional imaging studies.

Brain, 121, 1437-1449.

 

Laforce, R. J., & Doyon, J. (2001).

Distinct contribution of the striatum and cerebellum to motor learning.

Brain and Cognition, 45(2), 189-211.

 

Shibasaki, H., & Hallett, M. (2006).

What is the bereitschaftspotential?

Clin Neurophysiol, 117(11), 2341-2356.

 

Pasalar, S., Roitman, A. V., Durfee, W. K., & Ebner, T. J. (2006).

Force field effects on cerebellar purkinje cell discharge with implications for internal models.

Nature Neuroscience, 9(11), 1404-1411.

 

Fiorio, M., Tinazzi, M., & Aglioti, S. M. (2006).

Selective impairment of hand mental rotation in patients with focal hand dystonia.

Brain, 129(1), 47-54.

 

Frey, S. H., & Gerry, V. E. (2006).

Modulation of neural activity during observational learning of actions and their sequential orders.

Journal of Neuroscience, 26(51), 13194-13201.

 

Averbeck, B. B., & Lee, D. (2007).

Prefrontal neural correlates of memory for sequences.

Journal of Neuroscience, 27(9), 2204-2211.

 

Obleser, J., Wise, R. J. S., Alex Dresner, M., & Scott, S. K. (2007).

Functional integration across brain regions improves speech perception under adverse listening conditions.

Journal of Neuroscience, 27(9), 2283-2289.

 

Miller, K. J., Leuthardt, E. C., Schalk, G., Rao, R. P. N., Anderson, N. R., Moran, D. W., et al. (2007).

Spectral changes in cortical surface potentials during motor movement.

Journal of Neuroscience, 27(9), 2424-2432.

 

Dean, P., Porrill, J., & Stone, J. V. (2002).

Decorrelation control by the cerebellum achieves oculomotor plant compensation in simulated vestibulo-ocular reflex.

Proceedings of the Royal Society of London Series B-Biological Sciences, 269(1503), 1895-1904.

 

Porrill, J., & Dean, P. (2007).

Recurrent cerebellar loops simplify adaptive control of redundant and nonlinear motor systems.

Neural Computation, 19(1), 170-193.

 

Porrill, J., Dean, P., & Stone, J. V. (2004).

Recurrent cerebellar architecture solves the motor-error problem.

Proceedings of the Royal Society of London Series B-Biological Sciences, 271(1541), 789-796.

 

Ramnani, N. (2006).

The primate cortico-cerebellar system: Anatomy and function.

Nature Reviews Neuroscience, 7(7), 511-522.

 

Houk, J. C., Bastianen, C., Fansler, D., Fishbach, A., Fraser, D., Reber, P. J., et al. (2007).

Action selection and refinement in subcortical loops through basal ganglia and cerebellum.

Philosophical Transactions of the Royal Society B: Biological Sciences, In Press.

 

Hazy, T. E., Frank, M. J., & O'Reilly, R. C. (2007).

Towards an executive without a homunculus: Computational models of the prefrontal cortex/basal ganglia system.

Philosophical Transactions of the Royal Society B: Biological Sciences, In Press.

 

Cisek, P. (2007).

Cortical mechanisms of action selection: The affordance competition hypothesis.

Philosophical Transactions of the Royal Society B: Biological Sciences, In Press.

 

Fiorio, M., Tinazzi, M., Ionta, S., Fiaschi, A., Moretto, G., Edwards, M. J., et al. (2007).

Mental rotation of body parts and non-corporeal objects in patients with idiopathic cervical dystonia.

Neuropsychologia, In Press.

 

Attanasio, J. S. (1987).

Relationships between oral sensory feedback skills and adaptation to delayed auditory feedback.

Journal of Communication Disorders, 20(5), 391-402.

 

Katz, D. I., & Lackner, J. R. (1977).

Adaptation to delayed auditory feedback.

Perception & Psychophysics, 22(5), 476-486.

 

Venkatagiri, H. S. (1980).

The core disruption under delayed auditory feedback: Evidence from adaptation study.

Journal of Communication Disorders, 13(5), 365-371.

 

Bar-Haim, Y., Henkin, Y., Ari-Even-Roth, D., Tetin-Schneider, S., Hildesheimer, M., & Muchnik, C. (2004).

Reduced auditory efferent activity in childhood selective mutism.

Biological Psychiatry, 55(11), 1061-1068.

 

Grush, R. (2004).

The emulation theory of representation: Motor control, imagery, and perception.

Behavioral and Brain Sciences, 27(3), 377-396; discussion 396-442.

 

Barac-Cikoja, D. (2004).

Effects of temporal and spectral alterations of speech feedback on speech production by persons with hearing loss.

Archives of Otolaryngology – Head and Neck Surgery, 130(5), 598-603.

 

Bernier, P.-M., Chua, R., Bard, C., & Franks, I. M. (2006).

Updating of an internal model without proprioception: A deafferentation study.

Neuroreport, 17(13), 1421-1425.

 

Wolpert, D. M. (2007).

Probabilistic models in human sensorimotor control.

Human Movement Science, In Press.

 

Denève, S., Duhamel, J.-R., & Pouget, A. (2007).

Optimal sensorimotor integration in recurrent cortical networks: A neural implementation of kalman filters.

Journal of Neuroscience, 27(21), 5744-5756.

 

Mehta, B., & Schaal, S. (2002).

Forward models in visuomotor control.

Journal of Neurophysiology, 88(2), 942-953.

 

Tin, C., & Poon, C.-S. (2005).

Internal models in sensorimotor integration: Perspectives from adaptive control theory.

Journal of Neural Engineering, 2(3), S147-163.

 

Miall, R. C., & Wolpert, D. M. (1996).

Forward models for physiological motor control.

Neural Networks, 9(8), 1265-1279.

 

Wolpert, D. M., Miall, R. C., & Kawato, M. (1998).

Internal models in the cerebellum.

Trends in Cognitive Sciences, 2(9), 338-347.

 

Sridharan, D., Levitin, D. J., Chafe, C. H., Berger, J., & Menon, V. (2007).

Neural dynamics of event segmentation in music: Converging evidence for dissociable ventral and dorsal networks.

Neuron, 55(3), 521-532.

 

Todorov, E. (2004).

Optimality principles in sensorimotor control.

Nature Neuroscience, 7(9), 907-915.

 

Todorov, E. (2005).

Stochastic optimal control and estimation methods adapted to the noise characteristics of the sensorimotor system.

Neural Computation, 17(5), 1084-1108.

 

Scott, S. H. (2004).

Optimal feedback control and the neural basis of volitional motor control.

Nature Reviews Neuroscience, 5(7), 534-546

 

Heng, C., & de Leon, R. D. (2007).

The rodent lumbar spinal cord learns to correct errors in hindlimb coordination caused by viscous force perturbations during stepping.

Journal of Neuroscience, 27(32), 8558-8562.

 

Binda, P., Bruno, A., Burr, D. C., & Morrone, M. C. (2007).

Fusion of visual and auditory stimuli during saccades: A bayesian explanation for perisaccadic distortions.

Journal of Neuroscience, 27(32), 8525-8532.

 

Person, A. L., & Perkel, D. J. (2007).

Pallidal neuron activity increases during sensory relay through thalamus in a songbird circuit essential for learning.

Journal of Neuroscience, 27(32), 8687-8698.

 

Botvinick, M., & Watanabe, T. (2007).

From numerosity to ordinal rank: A gain-field model of serial order representation in cortical working memory.

Journal of Neuroscience, 27(32), 8636-8642.

 

Kumaran, D., & Maguire, E. A. (2007).

Match mismatch processes underlie human hippocampal responses to associative novelty.

Journal of Neuroscience, 27(32), 8517-8524.

 

Wong, P. C. M., Warrier, C. M., Penhune, V. B., Roy, A. K., Sadehh, A., Parrish, T. B., et al. (2007).

Volume of left heschl's gyrus and linguistic pitch learning.

Cerebral Cortex, In Press.

 

Malouf, T., & Kinoshita, S. (2007).

Masked onset priming effect for high-frequency words: Further support for the speech-planning account.

Quarterly Journal of Experimental Psychology, 60(8), 1155-1167.

 

Smith, E. G., & Bennetto, L. (2007).

Audiovisual speech integration and lipreading in autism.

Journal of Child Psychology and Psychiatry, 48(8), 813-821.

 

Chen, H., Hua, S. E., Smith, M. A., Lenz, F. A., & Shadmehr, R. (2006).

Effects of human cerebellar thalamus disruption on adaptive control of reaching.

Cerebral Cortex, 16(10), 1462-1473.

 

Zackowski, K. M., Bastian, A. J., Hakimian, S., Mink, J. W., Perlmutter, J. S., Koller, W. C., et al. (2002).

Thalamic stimulation reduces essential tremor but not the delayed antagonist muscle timing.

Neurology, 58(3), 402-410.

 

Kempf, F., Brücke, C., Kühn, A. A., Schneider, G.-H., Kupsch, A., Chu, C. C., et al. (2007).

Modulation by dopamine of human basal ganglia involvement in feedback control of movement.

Current Biology, 17(15), R587-589.

 

Haruno, M., Wolpert, D. M., & Kawato, M. (2001).

MOSAIC model for sensorimotor learning and control.

Neural Computation, 13(10), 2201-2220.

 

Wolpert, D. M., Doya, K., & Kawato, M. (2003).

A unifying computational framework for motor control and social interaction.

Philosophical Transactions of the Royal Society B: Biological Sciences, 358(1431), 593-602.

 

Brass, M., & Haggard, P. (2007).

To do or not to do: The neural signature of self-control.

Journal of Neuroscience, 27(34), 9141-9145.

 

Brown, L. E., Wilson, E. T., Goodale, M. A., & Gribble, P. L. (2007).

Motor force field learning influences visual processing of target motion.

Journal of Neuroscience, 27(37), 9975-9983.

 

Minagawa-Kawai, Y., Mori, K., Naoi, N., & Kojima, S. (2007).

Neural attunement processes in infants during the acquisition of a language-specific phonemic contrast.

Journal of Neuroscience, 27(2), 315-321.

 

Gawthrop, P., Lakie, M., & Loram, I. (2008).

Predictive feedback control and fitts' law.

Biological Cybernetics, 98(3), 229-238.

 

Peters, J., & Schaal, S. (2008).

Reinforcement learning of motor skills with policy gradients.

Neural Networks, In Press.

 

Schaal, S., Ijspeert, A. J., & Billard, A. G. (2003).

Computational approaches to motor learning by imitation.

Philosophical Transactions of the Royal Society B: Biological Sciences, 358(1431), 537-547.

 

Schaal, S., & Schweighofer, N. (2005).

Computational motor control in humans and robots.

Current Opinion in Neurobiology, 15(6), 675-682.

 

Strand, F., Forssberg, H., Klingberg, T., & Norrelgen, F. (2008).

Phonological working memory with auditory presentation of pseudo-words - an event related fmri study.

Brain Research, 1212, 48-54.