Add to ORKGA model of human motion perception is presented. The model contains two stages of direction selective units. The first stage contains broadly tuned units, while the second stage contains units that are narrowly tuned. The model accounts for the motion aftereffect through adapting units at the first stage and inhibitory interactions at the second stage. The model explains how two populations of dots moving in slightly different directions are perceived as a single population moving in the direction of the vector sum, and how two populations moving in strongly different directions are perceived as transparent motion. The model also explains why the motion aftereffect in both cases appears as non-transparent motion
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
Our visual system can solve the difficult problem of repre-senting multiple motions in the same part...
When observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE) is typ...
A model of human motion perception is presented. The model contains two stages of direction selectiv...
A model of human motion perception is presented. The model contains two stages of direction selectiv...
this article some other nontransparent displays that cannot be explained this way. Motion transparen...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
In the preceding two companion articles we studied the con-ditions under which transparent motion pe...
AbstractWhen observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
When we look at two overlapping random-dot patterns moving toward different directions, we perceive ...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
Our visual system can solve the difficult problem of repre-senting multiple motions in the same part...
When observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE) is typ...
A model of human motion perception is presented. The model contains two stages of direction selectiv...
A model of human motion perception is presented. The model contains two stages of direction selectiv...
this article some other nontransparent displays that cannot be explained this way. Motion transparen...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
In the preceding two companion articles we studied the con-ditions under which transparent motion pe...
AbstractWhen observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
When we look at two overlapping random-dot patterns moving toward different directions, we perceive ...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
In daily life our visual system is bombarded with motion information. We see cars driving by, flocks...
Our visual system can solve the difficult problem of repre-senting multiple motions in the same part...
When observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE) is typ...