%0 Journal Article
%A Dalbey, Keith R.
%A Swiler, Laura P.
%D 2014
%I Begell House
%K uncertainty quantification, probability theory, Monte Carlo, mixture models
%N 2
%P 133-149
%R 10.1615/Int.J.UncertaintyQuantification.2013006330
%T GAUSSIAN PROCESS ADAPTIVE IMPORTANCE SAMPLING
%U http://dl.begellhouse.com/journals/52034eb04b657aea,14db5d4c2510c6cc,4f2e4f3e3689e792.html
%V 4
%X The objective is to calculate the probability, P_{F}, that a device will fail when its inputs, x, are randomly distributed with probability density, p (x), e.g., the probability that a device will fracture when subject to varying loads. Here failure is defined as some scalar function, y (x), exceeding a threshold, T. If evaluating y (x) via physical or numerical experiments is sufficiently expensive or P_{F} is sufficiently small, then Monte Carlo (MC) methods to estimate P_{F} will be unfeasible due to the large number of function evaluations required for a specified accuracy. Importance sampling (IS), i.e., preferentially sampling from "important" regions in the input space and appropriately down-weighting to obtain an unbiased estimate, is one approach to assess P_{F} more efficiently. The inputs are sampled from an importance density, p' (x). We present an adaptive importance sampling (AIS) approach which endeavors to adaptively improve the estimate of the ideal importance density, p* (x), during the sampling process. Our approach uses a mixture of component probability densities that each approximate p* (x). An iterative process is used to construct the sequence of improving component probability densities. At each iteration, a Gaussian process (GP) surrogate is used to help identify areas in the space where failure is likely to occur. The GPs are not used to directly calculate the failure probability; they are only used to approximate the importance density. Thus, our Gaussian process adaptive importance sampling (GPAIS) algorithm overcomes limitations involving using a potentially inaccurate surrogate model directly in IS calculations. This robust GPAIS algorithm performs surprisingly well on a pathological test function.
%8 2014-04-17