References
- Berthier, N., Clifton, R. K., Gullapalli, V., McCall, D. D., & Robin, D. J. (1996). Visual information and object size in the control of reaching. Journal of Motor Behavior, 28, 187-197.
- Carlton, L. G. (1981). Visual information: The control of aiming movements. Quarterly Journal of Experimental Psychology: Human Experimental Psychology, 33, 87-93.
- Carpenter, R. H. S. (1988). Movements of the eyes (2nd ed.). London: Pion Limited.
- Churchill, A., Hopkins, B., Ronnqvist, L., & Vogt, S. (2000). The role of visual information about hand position and environmental context in reaching and grasping. Experimental Brain Research, 134, 81-89.
- Cohen, J. (1992). A power primer. Psychological Bulletin, 112, 155-159.
- Desmurget, M., & Grafton, S. (2000). Forward modelling allows feedback control for fast reaching movements. Trends in Cognitive Sciences, 4, 423-431.
- Elliott, D., Roy, E. A., Goodman, D., Carson, R. G., Chua, R., & Maraj, B. K. V. (1993). Asymmetries in the perception and control of manual aiming movements. Canadian Journal of Experimental Psychology, 47, 570-589.
- Fisk, J. D., & Goodale, M. A. (1985). The organisation of eye and limb movements during unrestricted reaching to targets in contralateral and ipsilateral visual space. Experimental Brain Research, 60, 159-178.
- Georgopoulos, A. P. (1995). Current issues in directional motor control. Trends in Neuroscience, 18, 506-510.
- Goodale, M. A., Pellision, D., & Prablanc, C. (1986, April 24). Large adjustments in visually guided reaching do not depend on vision of the hand or perception of target displacement. Nature, 320, 748-750.
- Hayhoe, M. (2000). Vision using routines: A functional account of vision. Visual Cognition, 7, 43-64.
- Jakobson, L. S., & Goodale, M. A. (1991). Factors influencing higher order movement planning: A kinematic analysis of human prehension. Experimental Brain Research, 102, 519-530.
- Land, M. F., & Furneaux, S. (1997). The knowledge base of the oculomotor system. Philosophical Transactions of the Royal Society of London, Series B, 352, 1231-1239.
- Land, M. F., & Hayhoe, M. (2001). In what ways do eye movement contribute to everyday activities? Vision Research, 41, 3559-3565.
- Land, M. F., Mennie, N., & Rusted, J. (1999). The roles of vision and eye movements in the control of activities of daily life. Perception, 28, 1311-1328.
- Miall, R. C., & Reckess, G. Z. (2002). The cerebellum and the timing of eye and hand tracking. Brain and Cognition, 48, 212-226.
- Neggers, S. F. W., & Bekkering, H. (2000). Ocular gaze is anchored to the target of an ongoing pointing movement. Journal of Neurophysiology, 83, 639-651.
- Neggers, S. F. W., & Bekkering, H. (2001). Gaze anchoring to a pointing target is present during the entire pointing movement and is driven by a non-visual signal. Journal of Neurophysiology, 86, 961-970.
- Prablanc, C., Eschallier, J. F., Komilis, E., & Jeannerod, M. (1979). Optimal response of eye and hand motor systems in pointing at a visual target: I. Spatio-temporal characteristics of eye and hand movements and their relationship when varying the amount of visual information. Biological Cybernetics, 35, 113-124.
- Wann, J. P., & Wilkie, R. M. (2004). How do we control high speed steering? In L. M. Vaina, S. A. Beardsley, & S. K. Rushton (Eds.), Optic flow and beyond (Vol. 324). New York: Springer.
- Wilkie, R. M., Wann, J. P., & Allison, R. (in press). Active gaze, visual look-ahead and locomotor control. Journal of Experimental Psychology: Human Perception and Performance.
- Wilmut, K., Wann, J. P., & Brown, J. H. (2006). How active gaze informs the hand in sequential pointing movements. Experimental Brain Research, 175, 654-666.