Path perception during rotation: influence of instructions, depth range, and dot density

Vision Res. 2004;44(16):1879-89. doi: 10.1016/j.visres.2004.03.008.

Abstract

How do observers perceive their direction of self-motion when traveling on a straight path while their eyes are rotating? Our previous findings suggest that information from retinal flow and extra-retinal information about eye movements are each sufficient to solve this problem for both perception and active control of self-motion [Vision Res. 40 (2000) 3873; Psych. Sci. 13 (2002) 485]. In this paper, using displays depicting translation with simulated eye rotation, we investigated how task variables such as instructions, depth range, and dot density influenced the visual system's reliance on retinal vs. extra-retinal information for path perception during rotation. We found that path errors were small when observers expected to travel on a straight path or with neutral instructions, but errors increased markedly when observers expected to travel on a curved path. Increasing depth range or dot density did not improve path judgments. We conclude that the expectation of the shape of an upcoming path can influence the interpretation of the ambiguous retinal flow. A large depth range and dense motion parallax are not essential for accurate path perception during rotation, but reference objects and a large field of view appear to improve path judgments.

Publication types

  • Research Support, U.S. Gov't, P.H.S.

MeSH terms

  • Awareness / physiology
  • Cognition / physiology
  • Cues
  • Depth Perception / physiology
  • Eye Movements / physiology*
  • Humans
  • Locomotion / physiology*
  • Orientation / physiology
  • Pattern Recognition, Visual / physiology
  • Psychomotor Performance
  • Retina / physiology
  • Rotation
  • Space Perception / physiology*