International audienceWe address the question of evaluating shape derivatives of objective functions for radiative-transfer engineering involving semi-transparent media. After recalling the standard Monte-Carlo approach to sensitivity estimation and its current limitations, a new method is presented for the specific case of geometrical sensitivities. This method is then tested in a square cavity filled by a multiple-scattering and absorbing (non-emitting) semi-transparent medium, irradiated by an emissive cylinder. A new geometrical sensitivity algorithm is presented with full genericity in order to allow its future implementation in complex geometries
Significance: Monte Carlo radiation transfer (MCRT) is the gold standard for modeling light transpor...
Radiative transfer describes the propagation of electromagnetic radiation through an interacting med...
An accurate Monte Carlo (MC) computer model is used to calculate the reflectances (R) and transmitta...
International audienceWe address the question of evaluating shape derivatives of objective functions...
International audienceWe address the question of evaluating shape derivatives of objective functions...
An extension of the Monte Carlo method in diffuse optics was developed. Diffuse optical technology m...
Shape sensitivity measures the impact of small perturbations of geometric features of a problem on c...
International audienceIt is shown that, starting from any existing Monte Carlo algorithm for estimat...
International audienceThe present text illustrates the practice of integral formulation, zero-varian...
Les travaux présentés dans ce manuscrit abordent la question de la vectorisation des évaluations de ...
A method evaluating the sensitivity of a given parameter to topological changes is proposed within t...
An efficient Monte Carlo method for the calculation of radiative transfer in complex geometry system...
Parametric Sensitivity Analysis (PSA) investigates the sensitivity of parameters, defining the desig...
This paper proposes a new Monte Carlo sensitivity analysis method for fixed source radiation transpo...
In engineering, simulation software is often used as a convenient means for carrying out experiments...
Significance: Monte Carlo radiation transfer (MCRT) is the gold standard for modeling light transpor...
Radiative transfer describes the propagation of electromagnetic radiation through an interacting med...
An accurate Monte Carlo (MC) computer model is used to calculate the reflectances (R) and transmitta...
International audienceWe address the question of evaluating shape derivatives of objective functions...
International audienceWe address the question of evaluating shape derivatives of objective functions...
An extension of the Monte Carlo method in diffuse optics was developed. Diffuse optical technology m...
Shape sensitivity measures the impact of small perturbations of geometric features of a problem on c...
International audienceIt is shown that, starting from any existing Monte Carlo algorithm for estimat...
International audienceThe present text illustrates the practice of integral formulation, zero-varian...
Les travaux présentés dans ce manuscrit abordent la question de la vectorisation des évaluations de ...
A method evaluating the sensitivity of a given parameter to topological changes is proposed within t...
An efficient Monte Carlo method for the calculation of radiative transfer in complex geometry system...
Parametric Sensitivity Analysis (PSA) investigates the sensitivity of parameters, defining the desig...
This paper proposes a new Monte Carlo sensitivity analysis method for fixed source radiation transpo...
In engineering, simulation software is often used as a convenient means for carrying out experiments...
Significance: Monte Carlo radiation transfer (MCRT) is the gold standard for modeling light transpor...
Radiative transfer describes the propagation of electromagnetic radiation through an interacting med...
An accurate Monte Carlo (MC) computer model is used to calculate the reflectances (R) and transmitta...