Add to ORKGAbstract Two experiments measured the human ability to reproduce locomotor distances of 4.6–100 m without visual feedback and compared distance production with time production. Subjects were not permitted to count steps. It was found that the precision of human odometry follows Weber’s law that variability is proportional to distance. The coefficients of variation for distance pro-duction were much lower than those measured for time production for similar durations. Gait parameters recorded during the task (average step length and step frequency) were found to be even less variable suggesting that step integration could be the basis for non-visual human odometry
Abstract: A number of previous works have shown that information about a subject is encoded in spars...
Background: Gait variability is an established marker of gait function that can be assessed using se...
1. The aim of this study was to find kinematic patterns that are invariant across the normal range o...
Abstract Two experiments measured the human ability to reproduce locomotor distances of 4.6–100 m wi...
Two experiments measured the human ability to reproduce locomotor distances of 4.6–100 m without vis...
Abstract: The variability of the length and frequency of steps was measured in sighted and visually ...
PURPOSE: This descriptive article illustrates the application of Global Positioning System (GPS) pro...
positioning system (GPS) to measure speed, displacement, and position during human locomotion.Method...
The path that humans take while walking to a goal is the result of a cognitive process modu-lated by...
Abstract The optic flow generated in the eyes during self-motion provides an important control signa...
International audienceBackground: Walking speed (WS) represents a global marker of individual health...
In this study we describe a simplified gait analysis system for the estimation of spatial-temporal p...
Purpose: To validate a nondifferential global positioning system (GPS) to measure speed, displacemen...
Analysis of human movement variability has provided insights into motor coordination. It has been su...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
Abstract: A number of previous works have shown that information about a subject is encoded in spars...
Background: Gait variability is an established marker of gait function that can be assessed using se...
1. The aim of this study was to find kinematic patterns that are invariant across the normal range o...
Abstract Two experiments measured the human ability to reproduce locomotor distances of 4.6–100 m wi...
Two experiments measured the human ability to reproduce locomotor distances of 4.6–100 m without vis...
Abstract: The variability of the length and frequency of steps was measured in sighted and visually ...
PURPOSE: This descriptive article illustrates the application of Global Positioning System (GPS) pro...
positioning system (GPS) to measure speed, displacement, and position during human locomotion.Method...
The path that humans take while walking to a goal is the result of a cognitive process modu-lated by...
Abstract The optic flow generated in the eyes during self-motion provides an important control signa...
International audienceBackground: Walking speed (WS) represents a global marker of individual health...
In this study we describe a simplified gait analysis system for the estimation of spatial-temporal p...
Purpose: To validate a nondifferential global positioning system (GPS) to measure speed, displacemen...
Analysis of human movement variability has provided insights into motor coordination. It has been su...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
Abstract: A number of previous works have shown that information about a subject is encoded in spars...
Background: Gait variability is an established marker of gait function that can be assessed using se...
1. The aim of this study was to find kinematic patterns that are invariant across the normal range o...