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Veerman MM, Brenner E, Smeets JBJ (2008) The latency for correcting a movement depends on the visual attribute that defines the target. Experimental Brain Research, 187(2):219-228    
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32 Papers found...

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1. Aivar MP, Brenner E, Smeets JBJ (2008) Avoiding moving obstacles. Experimental Brain Research, 190(3):251-264
    [NBArticle #23610] [Cites 43] [CitedBy 1]
2. Archambault PS, Caminiti R, Battaglia-Mayer A (2009) Cortical mechanisms for online control of hand movement trajectory: The role of the posterior parietal cortex. Cerebral Cortex, 19(12):2848-2864
    [NBArticle #27344] [Cites 1] [CitedBy 2]
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
    [NBArticle #41777] [Cites 48] [CitedBy 3]
4. Brenner E, Smeets JBJ (2010) How well can people judge when something happened? Vision Research, 50(12):1101-1108
      [NBArticle #36374] [Cites 1]
5. Brenner E, Smeets JBJ (2009) Modifying one's hand's trajectory when a moving target's orientation changes. Experimental Brain Research, 196(3):375-383
    [NBArticle #28594] [Cites 1]
6. de Wit MM, Masters RSW, van der Kamp J (2012) Exploring the thresholds of vision for perception and action. Motor Control, 16(1):120-128
    [NBArticle #36381] [Cites 1]
7. de Wit MM, van der Kamp J, Masters RSW (2011) Delayed pointing movements to masked müller–lyer figures are affected by target size but not the illusion. Neuropsychologia, 49(7):1903-1909
    [NBArticle #34434] [Cites 1]
8. Fautrelle L, Bonnetblanc F (2012) On-line coordination in complex goal-directed movements: a matter of interactions between several loops. Brain Research Bulletin, 89(1-2):57-64
      [NBArticle #36380] [Cites 1]
9. Ferraina S, Battaglia-Mayer A, Genovesio A, Archambault PS, Caminiti R (2009a) Parietal encoding of action in depth. Neuropsychologia, 47(6):1409-1420
    [NBArticle #27660] [Cites 145]
10. Fukui T, Inui T (2013) Utilization of visual feedback of the hand according to target view availability in the online control of prehension movements. Human Movement Science, 32(4):580-595
      [NBArticle #36378] [Cites 1]
11. Fukui T, Gomi HR (2012) Action evaluation is modulated dominantly by internal sensorimotor information and partly by noncausal external cue. Public Library of Science ONE, 7(5):e34985
      [NBArticle #36375] [Cites 1]
12. Gomi HR (2008) Implicit online corrections of reaching movements. Current Opinion in Neurobiology, 18(6):558-564
    [NBArticle #28223] [Cites 1] [CitedBy 1]
13. Holmes NP (2010) Hand-centred space and the control of movement. Research Seminar, Danish Research Centre for Magnetic Resonance, København, 29th September
  [NBArticle #32048] [Cites 19]
14. Holmes NP (2010) Hand-centred space and the control of movement. Research Seminar, Hamburg, 1st October
  [NBArticle #32049] [Cites 19]
15. Holmes NP (2010) Hand-centred space and the control of movement. Departmental Seminar, School of Psychology, University of Nottingham, 17th November
  [NBArticle #32050] [Cites 19]
16. Holmes NP (2010) Hand-centred space and the control of movement. Departmental Seminar, Department of Psychology, Royal Hollway, University of London, 1st December
  [NBArticle #32051] [Cites 15]
17. Holmes NP (2010) Hand-centred space and the on-line control of movement. Research Seminar, School of Psychology & Clinical Language Sciences, University of Reading, 14th December
  [NBArticle #32052] [Cites 15]
18. Holmes NP (2014) Rapid visual coding of hand position and the online control of reaching movements. Hand Symposium, CiMEC, University of Trento, Rovereto, Italy, 14th April
  [NBArticle #36890] [Cites 11]
19. 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
        [NBArticle #34083] [Cites 35] [CitedBy 11]
20. Holmes NP, Blanchard CCV, French B, McGlashan HL, Sperring RJ (2016) Sensory guidance of hand movement in adults and children: the development of online control. Action & Awareness workshop, University of Warwick, 18th March
  [NBArticle #43309] [Cites 20]
21. Holmes NP (2012b) A hand-centred view of perception, reaching, grasping, and eating. Departmental Seminar, Oxford Brookes University, 14th March
  [NBArticle #34086] [Cites 15]
22. Holmes NP, Blanchard CCV, French B, Sperring RJ, McGlashan HL, Makin TR, Dakwar A, Fialek S, Petrocochino B, Sycamore NJ (2016) Online control of reaching and grasping in children and adults. Invited Seminar, Aix-Marseille Université - Laboratoire de Neuroscience Intégrative & Adaptative, 21st June
  [NBArticle #43561] [Cites 20]
23. Holmes NP (2013) Parietal and cerebellar control of reaching and grasping and its dysfunction in developmental coordination disorder. Medical Research Council; New Investigator Research Grant (UKP583913).
  [NBArticle #34229] [Cites 50]
24. Holmes NP (2017) The neural basis of rapid visual 'on-line' control of reaching movement. Vision Research Group Seminar, School of Psychology, University of Nottingham, 6th April
  [NBArticle #47935] [Cites 13]
25. Marko MK, Haith AM, Harran MD, Shadmehr R (2012) Sensitivity to prediction error in reach adaptation. Journal of Neurophysiology, 108(6):1752-1763
      [NBArticle #36373] [Cites 1]
26. Mrotek LA (2013) Following and intercepting scribbles: interactions between eye and hand control. Experimental Brain Research, 227(2):161-174
      [NBArticle #36379] [Cites 1]
27. Oostwoud Wijdenes L., Brenner E, Smeets JBJ (2013) Comparing online adjustments to distance and direction in fast pointing movements. Journal of Motor Behaviour, 45(5):395-404
      [NBArticle #36377] [Cites 1]
28. Oostwoud Wijdenes L., Brenner E, Smeets JBJ (2011) Fast and fine-tuned corrections when the target of a hand movement is displaced. Experimental Brain Research, 214(3):453-462
    [NBArticle #34964] [Cites 1] [CitedBy 1]
29. Thaler L, Goodale MA (2011) The role of online visual feedback for the control of target-directed and allocentric hand movements. Journal of Neurophysiology, 105(2):846-859
    [NBArticle #32700] [Cites 1]
30. Van Mierlo CM, Louw S, Smeets JBJ, Brenner E (2009) Slant cues are processed with different latencies for the online control of movement. Journal of Vision, 9(3):25
      [NBArticle #36372] [Cites 1]
31. Voudouris D, Smeets JBJ, Brenner E (2013) Ultra-fast selection of grasping points. Journal of Neurophysiology, 110(7):1484-1489
      [NBArticle #36376] [Cites 1]
32. White AL, Linares D, Holcombe AO (2008) Visuomotor timing compensates for changes in perceptual latency. Current Biology, 18(20):R951-953
    [NBArticle #24353] [Cites 1]