1. Characteristics of voluntary visual sampling of the environment for safe locomotion over different terrains
- Author
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Sandra Prentice, Rachel Holden, Aftab E. Patla, Allan L. Adkin, and Christine Martin
- Subjects
Adult ,Male ,Communication ,business.industry ,Computer science ,General Neuroscience ,Feed forward ,Sampling (statistics) ,Motor control ,Sample (statistics) ,Terrain ,Swing ,Obstacle avoidance ,Visual Perception ,Trajectory ,Humans ,Female ,business ,Locomotion ,Psychomotor Performance ,Simulation ,ComputingMethodologies_COMPUTERGRAPHICS - Abstract
The characteristics of visual sampling required for successful locomotion over various terrains is the focus of this work. In the first experiment we directly address the role of continuous visual monitoring of the environment in guiding locomotion by allowing the subjects to choose when and where to take a visual sample of the terrain and examine the effects of different terrains on characteristics of visual sampling. Young subjects walked over travel paths of varying difficulties while wearing opaque liquid crystal eyeglasses and pressed a hand-held switch to make the glasses transparent when they needed to sample the environment. Travel time and visual sampling characteristics were recorded. Results show that intermittent sampling (less than 50%) of the environment is adequate for safe locomotion, even over a novel travel path. The frequency, duration and timing of visual samples are dependent on terrain characteristics. Visual sampling of the environment is unaffected by preview restriction of the travel path and is increased when specific foot placement is required and there is a potential hazard in the travel path. In the second experiment we dissociated steering control and obstacle avoidance from specific foot placement and examined visual sampling demands prior to the initiation of the swing phase and during the swing phase. The results show that steering control and obstacle avoidance do influence the visual sampling time, which is scaled to the magnitude of change. Vision was used in a feedforward control mode to plan for and initiate appropriate changes in the swing limb trajectory: its use during the swing phase to provide on-line control was minimal.
- Published
- 1996