AbstractPsychophysical experiments have shown that human heading judgments can be biased by the presence of moving objects. Here we present a theoretical argument that motion differences can account for the direction of bias seen in humans. We further examine the responses of a computer simulation of a model for computing heading that uses motion-opponent operators similar to cells in the primate middle temporal visual area. When moving objects are present, this model shows similar biases to those seen with humans, suggesting that such a model may underlie human heading computations
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
Heading estimation involves both inertial and visual cues. Inertial motion is sensed by the labyrint...
SummaryHumans and monkeys use both vestibular and visual motion (optic flow) cues to discriminate th...
AbstractPsychophysical experiments have shown that human heading judgments can be biased by the pres...
AbstractWe developed a new computational model of human heading judgement from retinal flow. The mod...
AbstractIn four experiments, we explored observers' ability to make heading judgments from simulated...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
<p>When human subjects fixate on optic flow displays wherein an observer moves along a straight path...
As we move about the world, our retinal image of the world undergoes a lawful transformation, called...
In four experiments, we explored observers ’ ability to make heading judgments from simulated linear...
How does visual path information influence people's perception of their instantaneous direction of s...
We investigated whether biological motion biases heading estimation from optic flow in a similar man...
We examined what role motion-streak-like form information plays in heading perception. We presented ...
In most models of heading from optic flow a rigid environment is assumed, yet humans often navigate ...
Purpose: We have previously reported that perceived direction of heading can be biased by the presen...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
Heading estimation involves both inertial and visual cues. Inertial motion is sensed by the labyrint...
SummaryHumans and monkeys use both vestibular and visual motion (optic flow) cues to discriminate th...
AbstractPsychophysical experiments have shown that human heading judgments can be biased by the pres...
AbstractWe developed a new computational model of human heading judgement from retinal flow. The mod...
AbstractIn four experiments, we explored observers' ability to make heading judgments from simulated...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
<p>When human subjects fixate on optic flow displays wherein an observer moves along a straight path...
As we move about the world, our retinal image of the world undergoes a lawful transformation, called...
In four experiments, we explored observers ’ ability to make heading judgments from simulated linear...
How does visual path information influence people's perception of their instantaneous direction of s...
We investigated whether biological motion biases heading estimation from optic flow in a similar man...
We examined what role motion-streak-like form information plays in heading perception. We presented ...
In most models of heading from optic flow a rigid environment is assumed, yet humans often navigate ...
Purpose: We have previously reported that perceived direction of heading can be biased by the presen...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
Heading estimation involves both inertial and visual cues. Inertial motion is sensed by the labyrint...
SummaryHumans and monkeys use both vestibular and visual motion (optic flow) cues to discriminate th...