This article develops a neural model of how the visual system processes natural images under variable illumination conditions to generate surface lightness percepts. Previous models have clarified how the brain can compute the relative contrast of images from variably illuminate scenes. How the brain determines an absolute lightness scale that "anchors" percepts of surface lightness to us the full dynamic range of neurons remains an unsolved problem. Lightness anchoring properties include articulation, insulation, configuration, and are effects. The model quantatively simulates these and other lightness data such as discounting the illuminant, the double brilliant illusion, lightness constancy and contrast, Mondrian contrast constancy, and ...
The present work proposes a new architecture for brightness perception, which aims to unify image pr...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
This article develops a neural model of how the visual system processes natural images under variabl...
This study develops a neuromorphic model of human lightness perception that is inspired by how the m...
A neural network model of 3-D lightness perception is presented which builds upon the FACADE Theory ...
A neural network model of early visual processing offers an explanation of brightness effects often ...
On the one hand, contrast signals provide information about surface properties, such as reflectance,...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
How docs the visual cortex combine information from both eyes to generate perceptual representations...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
This article develops the FACADE theory of three-dimensional (3-D) vision to simulate data concernin...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Wallach's ratio hypothesis states that local luminance ratios clr!termine lightness perception under...
The present work proposes a new architecture for brightness perception, which aims to unify image pr...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
This article develops a neural model of how the visual system processes natural images under variabl...
This study develops a neuromorphic model of human lightness perception that is inspired by how the m...
A neural network model of 3-D lightness perception is presented which builds upon the FACADE Theory ...
A neural network model of early visual processing offers an explanation of brightness effects often ...
On the one hand, contrast signals provide information about surface properties, such as reflectance,...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
How docs the visual cortex combine information from both eyes to generate perceptual representations...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
This article develops the FACADE theory of three-dimensional (3-D) vision to simulate data concernin...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Wallach's ratio hypothesis states that local luminance ratios clr!termine lightness perception under...
The present work proposes a new architecture for brightness perception, which aims to unify image pr...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...
Lightness Illusions (Contrast, Assimilation, and Natural Scenes with Edges and Gradients) show that ...