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Broadbent H (2017) On-line control of rapid hand movements in humans. MSc Thesis, , 8pp.  
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1. Bastian AJ, Martin TA, Keating JG, Thach WT (1996) Cerebellar ataxia: abnormal control of interaction torques across multiple joints. Journal of Neurophysiology, 76(1):492-509
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2. Büttner-Ennever JA, Horn AK (1997) Anatomical substrates of oculomotor control. Current Opinion in Neurobiology, 7(6):872-879
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3. Blanchard CCV, McGlashan HL, French B, Sperring RJ, Petrocochino B, Holmes NP (2017) Online control of prehension predicts performance on a standardised motor assessment test in 8-12 year old children. Frontiers in Psychology, 8:374
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4. Bridgeman B, Lewis S, Heit G, Nagle M (1979) Relation between cognitive and motor-oriented systems of visual position perception. Journal of Experimental Psychology: Human Perception and Performance, 5(4):692-700
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5. Carlton LG (1981) Processing visual feedback information for movement control. Journal of Experimental Psychology: Human Perception and Performance, 7(5):1019-1030
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6. Cavina-Pratesi C, Goodale MA, Culham JC (2007) FMRI reveals a dissociation between grasping and perceiving the size of real 3D objects. Public Library of Science ONE, 2(5):e424
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7. Cohen NR, Cross ES, Tunik E, Grafton ST, Culham JC (2009) Ventral and dorsal stream contributions to the online control of immediate and delayed grasping: A TMS approach. Neuropsychologia, 47(6):1553-1562
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8. Colebatch JG, Deiber M, Passingham RE, Friston KJ, Frackowiak RSJ (1991) Regional cerebral blood flow during voluntary arm and hand movements in human subjects. Journal of Neurophysiology, 65(6):1392-1401
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9. Connolly JD, Goodale MA (1999) The role of visual feedback of hand position in the control of manual prehension. Experimental Brain Research, 125(3):281-286
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10. Cooke JD, Diggles VA (1984) Rapid error correction during human arm movements: evidence for central monitoring. Journal of Motor Behaviour, 16(4):348-363
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11. Desmurget M, Grafton ST (2000) Forward modeling allows feedback control for fast reaching movements. Trends in Cognitive Sciences, 4(11):423-431
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12. DuBois RM, Cohen MS (2000) Spatiotopic organization in human superior colliculus observed with fmri. NeuroImage, 12(1):63-70
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13. Gerdes VG, Happee R (1994) The use of internal representation in fast goal-directed movements: a modeling approach. Biological Cybernetics, 70:513-524
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14. Goodale MA, Pélisson D, Prablanc C (1986) Large adjustments in visually guided reaching do not depend on vision of the hand or perception of target displacement. Nature, 320(6064):748-750
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15. Goodale MA, Milner AD (1992) Separate visual pathways for perception and action. Trends in Neurosciences, 15(1):20-25
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16. Goodkin HP, Martin TA, Thach WT (1993) Preserved simple and impaired compound movement after infarction in the territory of the superior cerebellar artery. Canadian Journal of Neurological Science, 20(3):S93-104
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17. Hoff B, Arbib MA (1993) Models of trajectory formation and temporal interaction in reach and grasp. Journal of Motor Behaviour, 25(3):175-192
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18. Holmes NP, Dakwar A (2015) Online control of reaching and pointing to visual, auditory, and multimodal targets: Effects of target modality and method of determining correction latency. Vision Research, 117:105-116
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19. Inglis JT, Frank JS (1990) The effect of agonist/antagonist muscle vibration on human position sense. Experimental Brain Research, 81(3):573-580
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20. Keele SW, Posner MI (1968) Processing of visual feedback in rapid movements. Journal of Experimental Psychology, 77(1):155-158
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21. King AJ (2004) The superior colliculus. Current Biology, 14(9):R335-338
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22. Lang CE, Bastian AJ (1999) Cerebellar subjects show impaired adaptation of anticipatory emg during catching. Journal of Neurophysiology, 82(5):2108-2119
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23. Lee C, Rohrer WH, Sparks DL (1988) Population coding of saccadic eye movements by neurons in the superior colliculus. Nature, 332(6162):357-360
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24. Legge D, Barber PJ (1976) Information and Skill. Methuen, London
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25. Li N, Chen TW, Guo ZV, Gerfen CR, Svoboda K (2015) A motor cortex circuit for motor planning and movement. Nature, 519(7541):51-56
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26. Mehta B, Schaal S (2002) Forward models in visuomotor control. Journal of Neurophysiology, 88(2):942-953
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27. Milner AD, Dijkerman HC, Carey DP (1999) Visuospatial processing in a pure case of visual-form agnosia. In: Burgess N, Jeffery KJ, O'Keefe J (eds) The Hippocampal and Parietal Foundations of Spatial Cognition. Oxford University Press, Oxford, pp 443–466
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28. Mishkin M, Ungerleider LG, Macko KA (1983) Object vision and spatial vision: Two cortical pathways. Trends in Neurosciences, 6:414-417
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29. Paillard J (1996) Fast and slow feedback loops for the visual correction of spatial errors in a pointing task: A reappraisal. Canadian Journal of Physiology, 74(4):401-417
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30. Paulignan Y, MacKenzie C, Marteniuk RG, Jeannerod M (1991a) Selective perturbation of visual input during prehension movements. 1. The effects of changing object position. Experimental Brain Research, 83(3):502-512
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31. Pisella L, Gréa H, Tilikete C, Vighetto A, Desmurget M, Rode G, Boisson D, Rossetti YRC (2000) An 'automatic pilot' for the hand in human posterior parietal cortex: Toward reinterpreting optic ataxia. Nature Neuroscience, 3(7):729-736
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32. Prochazka A (2010) Proprioceptive feedback and movement regulation. Comprehensive Physiology, :
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33. Raymond JL, Lisberger SG, Mauk MD (1996) The cerebellum: a neuronal learning machine? Science, 272(5265):1126-1131
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34. Redon C, Hay L, Velay J (1991) Proprioceptive control of goal directed movements in man studied by means of vibratory tendon stimulation. Journal of Motor Behaviour, 23(2):101-108
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35. Schweighofer N, Arbib MA, Kawato MI (1998) Role of the cerebellum in reaching movements in humans. I. Distributed inverse dynamics control. European Journal of Neuroscience, 10(1):86-94
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36. Shenoy KV, Sahani M, Churchland MM (2013) Cortical control of arm movements: a dynamical systems perspective. Annual Review of Neuroscience, 36:337-359
  [NBArticle #48526] [CitedBy 1] [Delete citation]
37. Tamè L, Johnstone IT, Holmes NP (2012c) Inter-hemispheric interaction of touches at the fingers: a combined psychophysics and tms approach. Seeing and Perceiving, 25:Suppl163
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38. Ungerleider LG, Haxby JV (1994) ''What'' and ''where'' in the human brain. Current Opinion in Neurobiology, 4(2):157-165
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39. van Sonderen JF, Gielen CCAM, Denier van der Gon JJ (1989) Motor programmes for goal-directed movements are continuously adjusted according to changes in target location . Experimental Brain Research, 78(1):139-146
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40. Vilis T, Hore J (1977) Effects of changes in mechanical state of limb on cerebellar intention tremor. Journal of Neurophysiology, 40(5):1214-1224
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41. Wolpert DM, Ghahramani Z, Jordan MI (1995) An internal model for sensorimotor integration. Science, 269(5232):1880-1882
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