research-article

An additive global and local gaussian process model for large data sets

Authors:

Szu Hui NgAuthors Info & Claims

WSC '15: Proceedings of the 2015 Winter Simulation Conference

Pages 505 - 516

Published: 06 December 2015 Publication History

Abstract

Many computer models of large complex systems are time consuming to experiment on. Even when surrogate models are developed to approximate the computer models, estimating an appropriate surrogate model can still be computationally challenging. In this article, we propose an Additive Global and Local Gaussian Process (AGLGP) model as a flexible surrogate for stochastic computer models. This model attempts to capture the overall global spatial trend and the local trends of the responses separately. The proposed additive structure reduces the computational complexity in model fitting, and allows for more efficient predictions with large data sets. We show that this metamodel form is effective in modelling various complicated stochastic model forms.

References

[1]

Ankenman, B., B. L. Nelson, and J. Staum. 2010. "Stochastic Kriging for Simulation Metamodeling". Operations Research 58 (2): 371--382.

Digital Library

[2]

Ba, S., and V. R. Joseph. 2012. "Composite Gaussian process models for emulating expensive functions". The Annals of Applied Statistics 6 (4): 1838--1860.

[3]

Banerjee, S., A. E. Gelfand, A. O. Finley, and H. Sang. 2008. "Gaussian predictive process models for large spatial data sets.". Journal of the Royal Statistical Society. Series B, Statistical methodology 70 (4): 825--848.

[4]

Cressie, N. 1993. Statistics for Spatial Data. Wiley, New York.

[5]

Furrer, R., M. G. Genton, and D. Nychka. 2006. "Covariance Tapering for Interpolation of Large Spatial Datasets". Journal of Computational and Graphical Statistics 15 (3): 502--523.

[6]

Gramacy, R. B., and D. W. Apley. 2014. "Local Gaussian process approximation for large computer experiments". Journal of Computational and Graphical Statistics:1--28.

[7]

Gramacy, R. B., and B. Haaland. 2015. "Speeding up neighborhood search in local Gaussian process prediction". Technometrics (to appear).

[8]

Higham, N. J. 2002. Accuracy and stability of numerical algorithms. SIAM.

Digital Library

[9]

Hsu, C.-W., and C.-J. Lin. 2002. "A comparison of methods for multiclass support vector machines". Neural Networks, IEEE Transactions on 13 (2): 415--425.

Digital Library

[10]

Jones, D., M. Schonlau, and W. Welch. 1998. "Efficient global optimization of expensive black-box functions". Journal of Global optimization:455--492.

Digital Library

[11]

Li, Y., S. Ng, M. Xie, and T. Goh. 2010. "A systematic comparison of metamodeling techniques for simulation optimization in Decision Support Systems". Applied Soft Computing 10 (4): 1257--1273.

Digital Library

[12]

Ng, S. H., and J. Yin. 2012. "Bayesian Kriging Analysis and Design for Stochastic Simulations". ACM Transactions on Modeling and Computer Simulation 22 (3): 1--26.

Digital Library

[13]

Park, C., J. Huang, and Y. Ding. 2011. "Domain decomposition approach for fast Gaussian process regression of large spatial data sets". The Journal of Machine Learning Research 12:1697--1728.

Digital Library

[14]

Quiñonero Candela, J., and C. Rasmussen. 2005. "A unifying view of sparse approximate Gaussian process regression". The Journal of Machine Learning Research 6:1939--1959.

Digital Library

[15]

Sacks, J., W. Welch, T. Mitchell, and H. Wynn. 1989. "Design and analysis of computer experiments". Statistical science 4 (4): 409--435.

[16]

Sang, H., and J. Huang. 2012. "A full scale approximation of covariance functions for large spatial data sets". Journal of the Royal Statistical Society 74:111--132.

[17]

Simpson, T. W., J. Poplinski, P. N. Koch, and J. K. Allen. 2001. "Metamodels for computer-based engineering design: survey and recommendations". Engineering with computers 17 (2): 129--150.

[18]

Snelson, E., and Z. Ghahramani. 2007. "Local and global sparse Gaussian process approximations". International Conference on Artificial Intelligence and Statistics.

[19]

Stein, M. L. 1991. Interpolation of spatial data: some theory for kriging. Springer Science & Business Media.

[20]

Yin, J., S. Ng, and K. Ng. 2011. "Kriging metamodel with modified nugget-effect: The heteroscedastic variance case". Computers & Industrial Engineering 61 (3): 760--777.

Digital Library

Cited By

Meng QNg S(2017)Enhancing pattern search for global optimization with an additive global and local gaussian process modelProceedings of the 2017 Winter Simulation Conference10.5555/3242181.3242356(1-12)Online publication date: 3-Dec-2017
https://dl.acm.org/doi/10.5555/3242181.3242356
Meng QNg SHuschka TChick S(2016)Combined global and local method for stochastic simulation optimization with an AGLGP modelProceedings of the 2016 Winter Simulation Conference10.5555/3042094.3042208(827-838)Online publication date: 11-Dec-2016
https://dl.acm.org/doi/10.5555/3042094.3042208

An additive global and local gaussian process model for large data sets
1. Computing methodologies
  1. Modeling and simulation
    1. Model development and analysis

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cover image ACM Conferences

WSC '15: Proceedings of the 2015 Winter Simulation Conference

December 2015

4051 pages

ISBN:9781467397414

Sponsors

SIGSIM: ACM Special Interest Group on Simulation and Modeling

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IEEE Press

Publication History

Published: 06 December 2015

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WSC '15

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SIGSIM

WSC '15: Winter Simulation Conference

December 6 - 9, 2015

California, Huntington Beach

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WSC '15 Paper Acceptance Rate 202 of 296 submissions, 68%;

Overall Acceptance Rate 3,413 of 5,075 submissions, 67%

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Cited By

Meng QNg S(2017)Enhancing pattern search for global optimization with an additive global and local gaussian process modelProceedings of the 2017 Winter Simulation Conference10.5555/3242181.3242356(1-12)Online publication date: 3-Dec-2017
https://dl.acm.org/doi/10.5555/3242181.3242356
Meng QNg SHuschka TChick S(2016)Combined global and local method for stochastic simulation optimization with an AGLGP modelProceedings of the 2016 Winter Simulation Conference10.5555/3042094.3042208(827-838)Online publication date: 11-Dec-2016
https://dl.acm.org/doi/10.5555/3042094.3042208

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