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Main Authors: Gu, Mengyang, Palomo, Jesús, Berger, James O.
Format: Preprint
Published: 2018
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Online Access:https://arxiv.org/abs/1801.01874
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author Gu, Mengyang
Palomo, Jesús
Berger, James O.
author_facet Gu, Mengyang
Palomo, Jesús
Berger, James O.
contents Gaussian stochastic process emulation is a powerful tool for approximating computationally intensive computer models. However, estimation of parameters in the GaSP emulator is a challenging task. No closed-form estimator is available, and many numerical problems arise with standard estimates, e.g., the maximum likelihood estimator. In this package, we implement a marginal posterior mode estimator for special priors and parameterizations, an estimation method that meets robust parameter estimation criteria; mathematical reasons are provided therein to explain why robust parameter estimation can greatly improve predictive performance of the emulator. In addition, inert inputs (inputs that almost have no effect on the variability of a function) can be identified from the marginal posterior mode estimation, at no extra computational cost. The package also implements the parallel partial Gaussian stochastic process (PP GaSP) emulator for scenarios where computer models have multiple outputs on e.g., spatio-temporal coordinates. The package can be operated in a default mode, but also allows numerous user specifications, such as the capability of specifying trend functions and noise terms. Examples are studied herein to highlight the performance of the package in terms of out-of-sample prediction.
format Preprint
id arxiv_https___arxiv_org_abs_1801_01874
institution arXiv
publishDate 2018
record_format arxiv
spellingShingle RobustGaSP: Robust Gaussian Stochastic Process Emulation in R
Gu, Mengyang
Palomo, Jesús
Berger, James O.
Computation
Gaussian stochastic process emulation is a powerful tool for approximating computationally intensive computer models. However, estimation of parameters in the GaSP emulator is a challenging task. No closed-form estimator is available, and many numerical problems arise with standard estimates, e.g., the maximum likelihood estimator. In this package, we implement a marginal posterior mode estimator for special priors and parameterizations, an estimation method that meets robust parameter estimation criteria; mathematical reasons are provided therein to explain why robust parameter estimation can greatly improve predictive performance of the emulator. In addition, inert inputs (inputs that almost have no effect on the variability of a function) can be identified from the marginal posterior mode estimation, at no extra computational cost. The package also implements the parallel partial Gaussian stochastic process (PP GaSP) emulator for scenarios where computer models have multiple outputs on e.g., spatio-temporal coordinates. The package can be operated in a default mode, but also allows numerous user specifications, such as the capability of specifying trend functions and noise terms. Examples are studied herein to highlight the performance of the package in terms of out-of-sample prediction.
title RobustGaSP: Robust Gaussian Stochastic Process Emulation in R
topic Computation
url https://arxiv.org/abs/1801.01874