AbstractWe examine two models for human perception of shape from texture, based on two assumptions about the surface texture: isotropy and homogeneity. Observers made orientation judgments on planar textured surfaces. Surface textures were either isotropic or anisotropically stretched or compressed. If subjects used an isotropy assumption, they would make biased orientation estimates for the anisotropic textures. In some conditions some observers showed no bias for the anisotropic textures relative to the isotropic textures. In general, even when the observers showed bias, the biases were significantly less than those predicted if the observer used only deviation from isotropy as a cue. Observers appear to use both the deviation from isotro...
AbstractPrior studies of the perception of surface shape and attitude from texture have focused on m...
The contribution of texture to the perception of slant and curvature was studied in two experiments ...
AbstractIn order to quantify the ability of the human visual system to use texture information to pe...
AbstractWe examine two models for human perception of shape from texture, based on two assumptions a...
AbstractOptical texture patterns contain three quasi-independent cues to planar surface orientation:...
Texture cues in the image plane are a potentially rich source of surface information available to th...
Stereoscopic shape judgements can be modified by the addition of texture cues. This paper examines t...
Most existing computational models of the visual perception of three-dimensional shape from texture ...
Abstract In order to quantify the ability of the human visual system to use texture information to p...
AbstractWe document the limitations of isotropic textures in conveying three-dimensional shape. We m...
AbstractLi and Zaidi (Vision Research 40 (2000) 217; 41 (2001) 1519) have recently argued that there...
Textures are commonly used to enhance the representation of shape in non-photorealistic rendering ap...
\u3cp\u3eMost existing computational models of the visual perception of three-dimensional shape from...
AbstractLi and Zaidi (Li, A., and Zaidi, Q. (2000) Vision Research, 40, 217–242) showed that the ver...
I present a theoretical analysis that explains how the visual system could solve two key perceptual ...
AbstractPrior studies of the perception of surface shape and attitude from texture have focused on m...
The contribution of texture to the perception of slant and curvature was studied in two experiments ...
AbstractIn order to quantify the ability of the human visual system to use texture information to pe...
AbstractWe examine two models for human perception of shape from texture, based on two assumptions a...
AbstractOptical texture patterns contain three quasi-independent cues to planar surface orientation:...
Texture cues in the image plane are a potentially rich source of surface information available to th...
Stereoscopic shape judgements can be modified by the addition of texture cues. This paper examines t...
Most existing computational models of the visual perception of three-dimensional shape from texture ...
Abstract In order to quantify the ability of the human visual system to use texture information to p...
AbstractWe document the limitations of isotropic textures in conveying three-dimensional shape. We m...
AbstractLi and Zaidi (Vision Research 40 (2000) 217; 41 (2001) 1519) have recently argued that there...
Textures are commonly used to enhance the representation of shape in non-photorealistic rendering ap...
\u3cp\u3eMost existing computational models of the visual perception of three-dimensional shape from...
AbstractLi and Zaidi (Li, A., and Zaidi, Q. (2000) Vision Research, 40, 217–242) showed that the ver...
I present a theoretical analysis that explains how the visual system could solve two key perceptual ...
AbstractPrior studies of the perception of surface shape and attitude from texture have focused on m...
The contribution of texture to the perception of slant and curvature was studied in two experiments ...
AbstractIn order to quantify the ability of the human visual system to use texture information to pe...