Mixture of random walk solution and quasi-random walk solution to global illumination

Author

Xu, Qing ; Sun, Jizhou ; Wei, Zunce ; Shu, Yantai ; Cai, Jing

Author_Institution

Tianjin Univ., China

fYear

2001

fDate

2001

Firstpage

211

Lastpage

217

Abstract

Conventional Monte Carlo methods are often used to solve some hard second kind Fredholm integral equations such as the difficult global illumination problems due to its dimensional independence. However, the convergence rate of the quasi-Monte Carlo methods for numerical integration is superior to that of the Monte Carlo methods. We present two mixed strategies that make use of both the statistical properties of random numbers and the uniformity properties of quasi-random numbers to build up walk histories for solving the global illumination. In the framework of the proposed strategies, experimental results have been obtained from rendering the test scenes. The computations indicate that the mixed strategies can outperform Monte Carlo or quasi-Monte Carlo used alone

Keywords

Fredholm integral equations; Monte Carlo methods; computational geometry; convergence of numerical methods; lighting; rendering (computer graphics); Fredholm integral equations; Monte Carlo methods; computational geometry; convergence rate; experimental results; global illumination; numerical integration; quasi-random walk solution; random numbers; random walk solution; realistic image synthesis; rendering; Convergence of numerical methods; Differential equations; History; Integral equations; Layout; Lighting; Monte Carlo methods; Rendering (computer graphics); Sampling methods; Sun;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Graphics, Spring Conference on, 2001.

Conference_Location

Budmerice

Print_ISBN

0-7695-1215-1

Type

conf

DOI

10.1109/SCCG.2001.945356

Filename

945356