Colour constancy algorithms are typically divided into physics-based techniques which exploit the physical image formation process and statistics-based method that use statistical knowledge on surfaces and lights. In this paper we introduce a combined physical and statistical algorithm for computational colour constancy. Estimates obtained from the statistical Colour by Correlation algorithm are integrated with those of a physics based method based on the dichromatic reflectance model. The algorithm not only provides an illuminant estimate but a complete set of likelihoods for a given set of reference lights. Recovery performance is shown to exceed that of purely statistical and purely physical algorithms
Color constancy remains an important subject of research on color standards, computer imaging, and h...
We examine color constancy algorithms based on finite-dimensional linear models of surface reflectan...
We present an algorithm which uses information from both surface reflectance and illumination variat...
Computational colour constancy tries to recover the colour of the scene illuminant of an image. Colo...
Statistics-based colour constancy algorithms work well as long as there are many colours in a scene,...
Statistics-based colour constancy algorithms work well as long as there are many colours in a scene,...
Color constancy refers to a stable psychological tendency in perception even the lighting circumstan...
We improve the promising Colour by Correlation method for computational colour constancy by modifyin...
Colour constancy algorithms differ in their derivation, implementation, performance and assumptions....
In this paper a description of some of the most common colour constancy algorithms is presented. Gra...
The color of a scene recorded by a trichromatic sensor varies with the spectral distribution of the ...
We present an algorithm which uses information from both surface reflectance and illumination variat...
Objects retain their color in spite of changes in the wavelength and energy composition of the light...
In this article, we present an investigation of possible improvement of the colour constant reflecta...
We present a re-evaluation of previous experimental data for five different colour constancy algorit...
Color constancy remains an important subject of research on color standards, computer imaging, and h...
We examine color constancy algorithms based on finite-dimensional linear models of surface reflectan...
We present an algorithm which uses information from both surface reflectance and illumination variat...
Computational colour constancy tries to recover the colour of the scene illuminant of an image. Colo...
Statistics-based colour constancy algorithms work well as long as there are many colours in a scene,...
Statistics-based colour constancy algorithms work well as long as there are many colours in a scene,...
Color constancy refers to a stable psychological tendency in perception even the lighting circumstan...
We improve the promising Colour by Correlation method for computational colour constancy by modifyin...
Colour constancy algorithms differ in their derivation, implementation, performance and assumptions....
In this paper a description of some of the most common colour constancy algorithms is presented. Gra...
The color of a scene recorded by a trichromatic sensor varies with the spectral distribution of the ...
We present an algorithm which uses information from both surface reflectance and illumination variat...
Objects retain their color in spite of changes in the wavelength and energy composition of the light...
In this article, we present an investigation of possible improvement of the colour constant reflecta...
We present a re-evaluation of previous experimental data for five different colour constancy algorit...
Color constancy remains an important subject of research on color standards, computer imaging, and h...
We examine color constancy algorithms based on finite-dimensional linear models of surface reflectan...
We present an algorithm which uses information from both surface reflectance and illumination variat...