Title :
Acceleration of Monte Carlo path tracing in general environments
Author :
Pérez, Frederic ; Martín, Ignacio ; Sillion, François X. ; Pueyo, X.
Author_Institution :
GGG/IIiAUdG, Spain
Abstract :
The paper describes a two pass algorithm capable of computing solutions to the global illumination in general environments (diffuse or glossy surfaces, anisotropically scattering participating media) faster than previous methods, by combining the strengths of finite element and Monte Carlo methods. A quick coarse solution is first computed with a clustered directional hierarchical method. This intermediate solution is used by a Monte Carlo method to accelerate computation of a final accurate solution by importance sampling, by means of link probabilities and adaptive probability density functions. Results from a first implementation of the algorithm for diffuse surfaces are presented
Keywords :
Monte Carlo methods; finite element analysis; lighting; probability; ray tracing; Monte Carlo methods; Monte Carlo path tracing acceleration; adaptive probability density functions; anisotropically scattering; clustered directional hierarchical method; diffuse surfaces; final accurate solution; finite element methods; general environments; global illumination; glossy surfaces; importance sampling; intermediate solution; link probabilities; participating media; quick coarse solution; two pass algorithm; Acceleration; Anisotropic magnetoresistance; Clustering algorithms; Convergence; Finite element methods; Frequency; Lighting; Monte Carlo methods; Optical scattering; Probability density function;
Conference_Titel :
Computer Graphics and Applications, 2000. Proceedings. The Eighth Pacific Conference on
Conference_Location :
Hong Kong
Print_ISBN :
0-7695-0868-5
DOI :
10.1109/PCCGA.2000.883883
