Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo

Rendering photorealistic images is a costly process which can take up to several days in the case of high quality images. In most cases, the task of sampling the incident radiance function to evaluate the illumination integral is responsible for an important share of the computation time. Therefore,...

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Detalles Bibliográficos
Autores principales: Marques, Ricardo, Bouville, Christian, Santos, Luís Paulo, Bouatouch, Kadi
Lenguaje:eng
Publicado: Morgan & Claypool Publ. 2015
Materias:
Mathematical Physics and Mathematics
Acceso en línea:http://cds.cern.ch/record/2032023
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author Marques, Ricardo
Bouville, Christian
Santos, Luís Paulo
Bouatouch, Kadi
author_facet Marques, Ricardo
Bouville, Christian
Santos, Luís Paulo
Bouatouch, Kadi
author_sort Marques, Ricardo
collection CERN
description Rendering photorealistic images is a costly process which can take up to several days in the case of high quality images. In most cases, the task of sampling the incident radiance function to evaluate the illumination integral is responsible for an important share of the computation time. Therefore, to reach acceptable rendering times, the illumination integral must be evaluated using a limited set of samples. Such a restriction raises the question of how to obtain the most accurate approximation possible with such a limited set of samples. One must thus ensure that sampling produces the highe
id cern-2032023
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2015
publisher Morgan & Claypool Publ.
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spelling cern-20320232021-04-21T20:10:26Zhttp://cds.cern.ch/record/2032023engMarques, RicardoBouville, ChristianSantos, Luís PauloBouatouch, KadiEfficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte CarloMathematical Physics and MathematicsRendering photorealistic images is a costly process which can take up to several days in the case of high quality images. In most cases, the task of sampling the incident radiance function to evaluate the illumination integral is responsible for an important share of the computation time. Therefore, to reach acceptable rendering times, the illumination integral must be evaluated using a limited set of samples. Such a restriction raises the question of how to obtain the most accurate approximation possible with such a limited set of samples. One must thus ensure that sampling produces the higheMorgan & Claypool Publ.oai:cds.cern.ch:20320232015
spellingShingle Mathematical Physics and Mathematics
Marques, Ricardo
Bouville, Christian
Santos, Luís Paulo
Bouatouch, Kadi
Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title_full Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title_fullStr Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title_full_unstemmed Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title_short Efficient quadrature rules for illumination integrals: from quasi Monte Carlo to Bayesian Monte Carlo
title_sort efficient quadrature rules for illumination integrals: from quasi monte carlo to bayesian monte carlo
topic Mathematical Physics and Mathematics
url http://cds.cern.ch/record/2032023
work_keys_str_mv AT marquesricardo efficientquadraturerulesforilluminationintegralsfromquasimontecarlotobayesianmontecarlo
AT bouvillechristian efficientquadraturerulesforilluminationintegralsfromquasimontecarlotobayesianmontecarlo
AT santosluispaulo efficientquadraturerulesforilluminationintegralsfromquasimontecarlotobayesianmontecarlo
AT bouatouchkadi efficientquadraturerulesforilluminationintegralsfromquasimontecarlotobayesianmontecarlo

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