Is continuous visual monitoring necessary in visually guided locomotion?

Subjects were asked to walk to targets that were up to 21 m away, either with vision excluded during walking or under normal visual control. Over the entire range, subjects were accurate whether or not vision was available as long as no more than approximately 8 sec elapsed between closing the eyes and reaching the target. If more than 8 sec elapsed, (a) this had no influence on distances up to 5 m, but (b) distances between 6-21 m were severely impaired. The results are interpreted to mean that two mechanisms are involved in guidance. Up to 5 m, motor programs of relatively long duration can be formulated and used to control activity. Over greater distances, subjects internalized information about the environment in a more general form, independently of any particular set of motor instructions, and used this to control activity and formulate new motor programs. Experiments in support of this interpretation are presented.

[1]  Robert Sessions Woodworth,et al.  THE ACCURACY OF VOLUNTARY MOVEMENT , 1899 .

[2]  William Rowan,et al.  The Study of Instinct , 1953 .

[3]  Steven W. Keele,et al.  Movement control in skilled motor performance. , 1968 .

[4]  M. Posner,et al.  Processing of visual feedback in rapid movements. , 1968, Journal of experimental psychology.

[5]  C. I. Howarth,et al.  Movement Control in a Repetitive Motor Task , 1970, Nature.

[6]  R. Schmidt Proprioception and the timing of motor responses. , 1971, Psychological bulletin.

[7]  A. Welford Introductory lecture to session IV on the sequencing of action , 1974 .

[8]  H T Whiting,et al.  Exposure and occluded duration effects in a ball-catching skill. , 1974, Journal of motor behavior.

[9]  A. Welford,et al.  On the sequencing of action. , 1974, Brain Research.

[10]  S. Klapp Feedback versus motor programming in the control of aimed movements. , 1975, Journal of experimental psychology. Human perception and performance.

[11]  Déficit visuel persistant chez les aveugles-nés opérés. Données cliniques et expérimentales , 1975 .

[12]  M. Jeannerod,et al.  Corrective saccades: dependence on retinal reafferent signals , 1975, Vision Research.

[13]  J. Adams Issues for a Closed-Loop Theory of Motor Learning , 1976 .

[14]  James Alick Thomson Maps, programs and the visual control of locomotion , 1977 .

[15]  D J Glencross,et al.  Control of skilled movements. , 1977, Psychological bulletin.

[16]  JUDITH L. Smith,et al.  Sensorimotor Integration during Motor Programming , 1978 .

[17]  G. Stelmach Information processing in motor control and learning , 1978 .

[18]  H. Zelaznik,et al.  Motor-output variability: a theory for the accuracy of rapid motor acts. , 1979, Psychological review.

[19]  J. Thomson How do we use visual information to control locomotion? , 1980, Trends in Neurosciences.

[20]  David N. Lee,et al.  Regulation of gait in long jumping. , 1982 .