Journal ArticleDOI
A Central Limit Theorem for Latin Hypercube Sampling
TLDR
In this paper, the authors extend Stein's work to prove a central limit theorem for the variance reduction of LHS integrals, showing that the extent of variance reduction depends on the extent to which the integrand is additive.Abstract:
SUMMARY Latin hypercube sampling (LHS) is a technique for Monte Carlo integration, due to McKay, Conover and Beckman. M. Stein proved that LHS integrals have smaller variance than independent and identically distributed Monte Carlo integration, the extent of the variance reduction depending on the extent to which the integrand is additive. We extend Stein's work to prove a central limit theorem. Variance estimation methods for nonparametric regression can be adapted to provide N'12-consistent estimates of the asymptotic variance in LHS. Moreover the skewness can be estimated at this rate. The variance reduction may be explained in terms of certain control variates that cannot be directly measured. We also show how to combine control variates with LHS. Finally we show how these results lead to a frequentist approach to computer experimentation.read more
Citations
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Journal ArticleDOI
The design and analysis of computer experiments
TL;DR: This paper presents a meta-modelling framework for estimating Output from Computer Experiments-Predicting Output from Training Data and Criteria Based Designs for computer Experiments.
Journal ArticleDOI
Latin hypercube sampling and the propagation of uncertainty in analyses of complex systems
Jon C. Helton,Freddie J. Davis +1 more
TL;DR: The following techniques for uncertainty and sensitivity analysis are briefly summarized: Monte Carlo analysis, differential analysis, response surface methodology, Fourier amplitude sensitivity test, Sobol' variance decomposition, and fast probability integration.
ReportDOI
Latin Hypercube Sampling and the Propagation of Uncertainty in Analyses of Complex Systems
Jon C. Helton,Freddie J. Davis +1 more
TL;DR: The following techniques for uncertainty and sensitivity analysis are briefly summarized: Monte Carlo analysis, differential analysis, response surface methodology, Fourier amplitude sensitivity test, Sobol’ variance decomposition, and fast probability integration.
Journal ArticleDOI
Optimal Latin-hypercube designs for computer experiments
TL;DR: In this article, optimal Latin-hypercube designs minimizing the integrated mean squared error (IMSE) and maximizing entropy are considered, and a 2-stage (exchange and Newton-type) computational algorithm for finding the proposed design is presented.
Journal ArticleDOI
Survey of modeling and optimization strategies to solve high-dimensional design problems with computationally-expensive black-box functions
Songqing Shan,Gongming Wang +1 more
TL;DR: A survey on related modeling and optimization strategies that may help to solve High-dimensional, Expensive (computationally), Black-box (HEB) problems and two promising approaches are identified to solve HEB problems.
References
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Journal ArticleDOI
A comparison of three methods for selecting values of input variables in the analysis of output from a computer code
TL;DR: In this paper, two sampling plans are examined as alternatives to simple random sampling in Monte Carlo studies and they are shown to be improvements over simple sampling with respect to variance for a class of estimators which includes the sample mean and the empirical distribution function.
Journal ArticleDOI
The design and analysis of computer experiments
TL;DR: This paper presents a meta-modelling framework for estimating Output from Computer Experiments-Predicting Output from Training Data and Criteria Based Designs for computer Experiments.
Journal ArticleDOI
Methods of Numerical Integration.
Book
A course in probability theory
TL;DR: This edition of A Course in Probability Theory includes an introduction to measure theory that expands the market, as this treatment is more consistent with current courses.