Understanding reflection is one of the key competences in graphic arts industry. A very popular approach was given by Kubelka andMunk [1931] who derived a simple relationship between the scattering and absorption coefficients and the overall reflectance. This paper presents an alternative approach which describes the behavior of light in matter as a special kind of random walk
Random Light Beams: Theory and Applications contemplates the potential in harnessing random light. T...
To facilitate optical design of energy-efficient materials and devices, a detailed knowledge of thei...
Let {¿(n)}n¿Z be a three-color random scenery, i.e., a random coloration of Z in three colors, such ...
The study of the physical process of light interacting with matter is an important part of computer ...
The Kubelka-Munk scattering and absorption coefficients of a set of paper samples are assessed using...
Abstract — Mathematical models for the scattering of light (and other radiation) tend to fall into t...
The interaction between coherent waves and material systems with complex optical properties is a com...
This dissertation focuses on developing accurate yet efficient shading methods for realistic image s...
By modelling white paint materials as discrete random media, a variety of methods can be employed to...
International audienceExperimental results are presented of the spectral reflectance of a dyed fabri...
Light-tissue interaction is common in clinical treatments and medical researches, therefore investig...
Modeling light scattering is important in diverse reasearch fields such as paper and print, optical ...
A particle entering a scattering and absorbing medium executes a random walk through a sequence of s...
Disordered nanostructures are commonly encountered in many nanophotonic systems, from colloid disper...
We present a model for transport in multiply scattering media based on a three-dimensional generaliz...
Random Light Beams: Theory and Applications contemplates the potential in harnessing random light. T...
To facilitate optical design of energy-efficient materials and devices, a detailed knowledge of thei...
Let {¿(n)}n¿Z be a three-color random scenery, i.e., a random coloration of Z in three colors, such ...
The study of the physical process of light interacting with matter is an important part of computer ...
The Kubelka-Munk scattering and absorption coefficients of a set of paper samples are assessed using...
Abstract — Mathematical models for the scattering of light (and other radiation) tend to fall into t...
The interaction between coherent waves and material systems with complex optical properties is a com...
This dissertation focuses on developing accurate yet efficient shading methods for realistic image s...
By modelling white paint materials as discrete random media, a variety of methods can be employed to...
International audienceExperimental results are presented of the spectral reflectance of a dyed fabri...
Light-tissue interaction is common in clinical treatments and medical researches, therefore investig...
Modeling light scattering is important in diverse reasearch fields such as paper and print, optical ...
A particle entering a scattering and absorbing medium executes a random walk through a sequence of s...
Disordered nanostructures are commonly encountered in many nanophotonic systems, from colloid disper...
We present a model for transport in multiply scattering media based on a three-dimensional generaliz...
Random Light Beams: Theory and Applications contemplates the potential in harnessing random light. T...
To facilitate optical design of energy-efficient materials and devices, a detailed knowledge of thei...
Let {¿(n)}n¿Z be a three-color random scenery, i.e., a random coloration of Z in three colors, such ...
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