Lightness algorithms, which have been proposed as a model for human vision, are aimed at recovering surface reflectance in a close approximation. They attempt to separate reflectance data from illumination data by thresholding a spatial derivative of the image intensity. This, however, works only reliable in a world of plane Mondrians. An extension of the classical lightness approach of Land and McCann (1971) to curved surfaces is presented. Assuming smooth surfaces with Lambertian reflection properties and leaving aside occlusions and cast shadows, the separation of those components of the intensity gradient due to reflectance from those due to irradiance is posed as a constraint minimization problem. To do so, two classification operators...
This paper addresses face recognition under varying light via 3D reconstruction based on the techniq...
Abstract—Based on the observation that shading conveys shape information through intensity gradients...
The Problem: To determine the reflective properties of an object’s surface, such as glossiness, matt...
The mismatch between dynamic ranges of intensities in non-uniformly illuminated videophone scenes an...
We develop a new approach to inferring lightness, the perceived reflectance of surfaces, from a sing...
To reproduce a real object in CG, a texture method which uses a real image has been widely investiga...
Natural viewing challenges the visual system with images that have a dynamic range of light intensit...
ICPR 2004 : 17th International Conference on Pattern Recognition , Aug 23-26, 2004 , Cambridge, UKIn...
Lightness constancy requires the visual system to somehow "parse" the input scene into illumination ...
SummaryNatural viewing challenges the visual system with images that have a dynamic range of light i...
Under normal viewing conditions, humans find it easy to distinguish between objects made out of diff...
Humans recognize optical reflectance properties of surfaces such as metal, plastic, or paper from a ...
Although photometric data is a readily available dense source of information in intensity images, it...
Any generic computer vision algorithm must be able to copewith the variations in appearance of objec...
ICPR 2002 : 16th International Conference on Pattern Recognition , Aug 11-15, 2002 , Quebec, CanadaI...
This paper addresses face recognition under varying light via 3D reconstruction based on the techniq...
Abstract—Based on the observation that shading conveys shape information through intensity gradients...
The Problem: To determine the reflective properties of an object’s surface, such as glossiness, matt...
The mismatch between dynamic ranges of intensities in non-uniformly illuminated videophone scenes an...
We develop a new approach to inferring lightness, the perceived reflectance of surfaces, from a sing...
To reproduce a real object in CG, a texture method which uses a real image has been widely investiga...
Natural viewing challenges the visual system with images that have a dynamic range of light intensit...
ICPR 2004 : 17th International Conference on Pattern Recognition , Aug 23-26, 2004 , Cambridge, UKIn...
Lightness constancy requires the visual system to somehow "parse" the input scene into illumination ...
SummaryNatural viewing challenges the visual system with images that have a dynamic range of light i...
Under normal viewing conditions, humans find it easy to distinguish between objects made out of diff...
Humans recognize optical reflectance properties of surfaces such as metal, plastic, or paper from a ...
Although photometric data is a readily available dense source of information in intensity images, it...
Any generic computer vision algorithm must be able to copewith the variations in appearance of objec...
ICPR 2002 : 16th International Conference on Pattern Recognition , Aug 11-15, 2002 , Quebec, CanadaI...
This paper addresses face recognition under varying light via 3D reconstruction based on the techniq...
Abstract—Based on the observation that shading conveys shape information through intensity gradients...
The Problem: To determine the reflective properties of an object’s surface, such as glossiness, matt...