International audienceAn important issue in tissue optics and Optical Tomography is to have an efficient forward solver. In this work, a new numerical algorithm was developed for solving light propagation with the radiative transport equation within a three-dimensional absorbing and a highly forward-scattering medium such as a biological tissue subjected to an incident beam. Both elastically scattered light and fluorescence light were studied. Two steady state problems used to assess the performance and accuracy of the proposed algorithm are presented. We show that it is possible to obtain a good level of accuracy with a deterministic numerical method: relative differences less than 1.7% and 4.5% were obtained when compared against Monte Ca...
This paper presents an overview of modeling light propagation through biological media by solving th...
The study of light transport is important in many applications ranging from neutron transport, gas a...
We have developed a computational platform that simulates light transport in tissue in support of bi...
International audienceAn important issue in tissue optics and Optical Tomography is to have an effic...
International audienceWe developed a new parallel computational method for solving fluorescence and ...
International audienceWe examine the accuracy of a modified finite volume method compared to analyti...
International audienceThe use of visible or NIR (Near Infrared) light provides many possibilities, p...
The comprehension of light propagation in biological tissue is of particular importance for the deve...
Energy deposition in bio-tissues is a prerequisite for the calculation of heat transfer during laser...
International audienceLight propagation in turbid media is driven by the equation of radiative trans...
Accurate and rapid estimation of fluence, reflectance, and absorbance in multilayered biological med...
An efficient numerical technique for modeling biological tissues using the radiative transfer equati...
A computerized model of steady–state photon diffusion within turbid media such as biological tissue...
An approximate numerical technique for modeling optical pulse propagation through weakly scattering ...
In this paper, we present a performed solution of a near infrared radiation through a biological tis...
This paper presents an overview of modeling light propagation through biological media by solving th...
The study of light transport is important in many applications ranging from neutron transport, gas a...
We have developed a computational platform that simulates light transport in tissue in support of bi...
International audienceAn important issue in tissue optics and Optical Tomography is to have an effic...
International audienceWe developed a new parallel computational method for solving fluorescence and ...
International audienceWe examine the accuracy of a modified finite volume method compared to analyti...
International audienceThe use of visible or NIR (Near Infrared) light provides many possibilities, p...
The comprehension of light propagation in biological tissue is of particular importance for the deve...
Energy deposition in bio-tissues is a prerequisite for the calculation of heat transfer during laser...
International audienceLight propagation in turbid media is driven by the equation of radiative trans...
Accurate and rapid estimation of fluence, reflectance, and absorbance in multilayered biological med...
An efficient numerical technique for modeling biological tissues using the radiative transfer equati...
A computerized model of steady–state photon diffusion within turbid media such as biological tissue...
An approximate numerical technique for modeling optical pulse propagation through weakly scattering ...
In this paper, we present a performed solution of a near infrared radiation through a biological tis...
This paper presents an overview of modeling light propagation through biological media by solving th...
The study of light transport is important in many applications ranging from neutron transport, gas a...
We have developed a computational platform that simulates light transport in tissue in support of bi...