How do observers perceive the path of self-motion during rotation? Previous research suggests that extra-retinal information about eye movements is necessary at high rotation rates (2-5°/s), but those experiments used sparse random-dot displays. With dense texture-mapped displays, we find the path can be perceived from retinal flow alone at high simulated rotation rates if (a) dense motion parallax and (b) at least one reference object are available. We propose that the visual system determines instantaneous heading from the first-order motion parallax field, and recovers the path of self-motion by updating heading over time with respect to reference objects in the scene. Copyright (C) 2000 Elsevier Science Ltd.link_to_subscribed_fulltex
Data and Matlab code to reproduce the results published in: Burlingham CS, Heeger DJ, Heading Percep...
textabstractThe retinal flow during normal locomotion contains components due to rotation and transl...
AbstractThe percept of self-motion through the environment is supported by visual motion signals and...
AbstractHow do observers perceive the path of self-motion during rotation? Previous research suggest...
How does visual path information influence people's perception of their instantaneous direction of s...
When traveling on a straight path with eye rotation, how do observers perceive the path of self-moti...
We investigated what roles global spatial frequency, surface structure, and foreground motion play i...
How do observers perceive their direction of self-motion when traveling on a straight path while the...
AbstractHow do observers perceive their direction of self-motion when traveling on a straight path w...
It has previously been reported that humans can determine their direction of 3D translation (heading...
We have previously shown that when traveling on a circular path, observers use the rotation in the r...
AbstractHumans perceive heading accurately when they rotate their eyes. This is remarkable, because ...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
As we move about the world, our retinal image of the world undergoes a lawful transformation, called...
AbstractRecent studies have suggested that humans cannot estimate their direction of forward transla...
Data and Matlab code to reproduce the results published in: Burlingham CS, Heeger DJ, Heading Percep...
textabstractThe retinal flow during normal locomotion contains components due to rotation and transl...
AbstractThe percept of self-motion through the environment is supported by visual motion signals and...
AbstractHow do observers perceive the path of self-motion during rotation? Previous research suggest...
How does visual path information influence people's perception of their instantaneous direction of s...
When traveling on a straight path with eye rotation, how do observers perceive the path of self-moti...
We investigated what roles global spatial frequency, surface structure, and foreground motion play i...
How do observers perceive their direction of self-motion when traveling on a straight path while the...
AbstractHow do observers perceive their direction of self-motion when traveling on a straight path w...
It has previously been reported that humans can determine their direction of 3D translation (heading...
We have previously shown that when traveling on a circular path, observers use the rotation in the r...
AbstractHumans perceive heading accurately when they rotate their eyes. This is remarkable, because ...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
As we move about the world, our retinal image of the world undergoes a lawful transformation, called...
AbstractRecent studies have suggested that humans cannot estimate their direction of forward transla...
Data and Matlab code to reproduce the results published in: Burlingham CS, Heeger DJ, Heading Percep...
textabstractThe retinal flow during normal locomotion contains components due to rotation and transl...
AbstractThe percept of self-motion through the environment is supported by visual motion signals and...