Free Access
Mov Sport Sci/Sci Mot
Number 108, 2020
Page(s) 33 - 37
Published online 08 January 2020
  • Agathos, C.P., Bernardin, D., Huchet, D., Scherlen, A.-C., Assaiante, C., & Isableu, B. (2015). Sensorimotor and cognitive factors associated with the age-related increase of visual field dependence: a cross-sectional study. AGE, 37(4), 67. [Google Scholar]
  • Bringoux, L., Bourdin, C., Lepecq, J.-C., Sandor, P.M.B., Pergandi, J.-M., & Mestre, D. (2009). Interaction between reference frames during subjective vertical estimates in a tilted immersive virtual environment. Perception, 38(7), 1053–1071. [CrossRef] [PubMed] [Google Scholar]
  • Howard, I.P. (1982). Human visual orientation. Chichester, Sussex: John Wiley. [Google Scholar]
  • Isableu, B., Ohlmann, T., Crémieux, J., & Amblard, B. (1997). Selection of spatial frame of reference and postural control variability. Experimental Brain Research, 114(3), 584–589. [CrossRef] [PubMed] [Google Scholar]
  • Kaas, A.L., & Mier, H.I. van. (2006). Haptic spatial matching in near peripersonal space. Experimental Brain Research, 170(3), 403–413. [CrossRef] [PubMed] [Google Scholar]
  • Kappers, A.M.L. (2003). Large systematic deviations in a bimanual parallelity task: further analysis of contributing factors. Acta Psychologica, 114(2), 131–145. [CrossRef] [PubMed] [Google Scholar]
  • Klatzky, R.L. (1998). Allocentric and egocentric spatial representations: definitions, distinctions, and interconnections. In Spatial Cognition (pp. 1–17). Berlin, Heidelberg: Springer. [Google Scholar]
  • Liepvre, H.L., Tasseel-Ponche, S., Szmatula, E., Andriantsifanetra, C., Bonan, I., Colle, F., & Yelnik, A. (2013). Stroke and visual dependence according to the task. Annals of Physical and Rehabilitation Medicine, 56(1), 160–161. [Google Scholar]
  • Lubeck, A.J.A., Bos, J.E., & Stins, J.F. (2016). Framing visual roll-motion affects postural sway and the subjective visual vertical. Attention, Perception, & Psychophysics, 78(8), 2612–2620. [CrossRef] [Google Scholar]
  • Mesure, S., Cremieux, J., & Amblard, B. (1995). Les stratégies et performances posturales sensori-motrices : effet de l’entraînement. Annales de kinésithérapie, 22(4), 151–163. [Google Scholar]
  • Oltman, P.K. (1968). A portable rod-and-frame apparatus. Perceptual and Motor Skills, 26(2), 503–506. [CrossRef] [PubMed] [Google Scholar]
  • Paillard, J. (1971). Les déterminants moteurs de l’organisation de l’espace. Cahiers de psychologie, 14(4), 261–316. [Google Scholar]
  • Scotto Di Cesare, C., Macaluso, T., Mestre, D.R., & Bringoux, L. (2015). Slow changing postural cues cancel visual field dependence on self-tilt detection. Gait & Posture, 41(1), 198–202. [CrossRef] [PubMed] [Google Scholar]
  • Tasseel-Ponche, S., Le Liepvre, H., Colle, F., Andriantsifanetra, C., Vidal, P.-P., Bonan, I.V., & Yelnik, A.-P. (2017). Rod and frame test and posture under optokinetic stimulation used to explore two complementary aspects of the visual influence in postural control after stroke. Gait & Posture, 58, 171–175. [CrossRef] [PubMed] [Google Scholar]
  • Witkin, H.A., & Asch, S.E. (1948). Studies in space orientation. IV. Further experiments on perception of the upright with displaced visual fields. Journal of Experimental Psychology, 38(6), 762–782. [CrossRef] [PubMed] [Google Scholar]

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