Kriging hyperparameter tuning strategies
Kriging hyperparameter tuning strategies
Response surfaces have been extensively used as a method of building effective surrogate models of high-fidelity
computational simulations. Of the numerous types of response surface models, kriging is perhaps one of the most
effective, due to its ability to model complicated responses through interpolation or regression of known data while
providing an estimate of the error in its prediction. There is, however, little information indicating the extent to which
the hyperparameters of a kriging model need to be tuned for the resulting surrogate model to be effective. The
following paper addresses this issue by investigating how often and how well it is necessary to tune the
hyperparameters of a kriging model as it is updated during an optimization process. To this end, an optimization
benchmarking procedure is introduced and used to assess the performance of five different tuning strategies over a
range of problem sizes. The results of this benchmark demonstrate the performance gains that can be associated with
reducing the complexity of the hyperparameter tuning process for complicated design problems. The strategy of
tuning hyperparameters only once after the initial design of experiments is shown to perform poorly.
1240-1252
Toal, David J.J.
dc67543d-69d2-4f27-a469-42195fa31a68
Bressloff, Neil W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Keane, Andy J.
26d7fa33-5415-4910-89d8-fb3620413def
May 2008
Toal, David J.J.
dc67543d-69d2-4f27-a469-42195fa31a68
Bressloff, Neil W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Keane, Andy J.
26d7fa33-5415-4910-89d8-fb3620413def
Toal, David J.J., Bressloff, Neil W. and Keane, Andy J.
(2008)
Kriging hyperparameter tuning strategies.
AIAA Journal, 46 (5), .
(doi:10.2514/1.34822).
Abstract
Response surfaces have been extensively used as a method of building effective surrogate models of high-fidelity
computational simulations. Of the numerous types of response surface models, kriging is perhaps one of the most
effective, due to its ability to model complicated responses through interpolation or regression of known data while
providing an estimate of the error in its prediction. There is, however, little information indicating the extent to which
the hyperparameters of a kriging model need to be tuned for the resulting surrogate model to be effective. The
following paper addresses this issue by investigating how often and how well it is necessary to tune the
hyperparameters of a kriging model as it is updated during an optimization process. To this end, an optimization
benchmarking procedure is introduced and used to assess the performance of five different tuning strategies over a
range of problem sizes. The results of this benchmark demonstrate the performance gains that can be associated with
reducing the complexity of the hyperparameter tuning process for complicated design problems. The strategy of
tuning hyperparameters only once after the initial design of experiments is shown to perform poorly.
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More information
Published date: May 2008
Organisations:
Computational Engineering and Design
Identifiers
Local EPrints ID: 143219
URI: http://eprints.soton.ac.uk/id/eprint/143219
ISSN: 0001-1452
PURE UUID: c9523a2d-976e-401e-9210-7e8628ebeb5e
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Date deposited: 08 Apr 2010 09:09
Last modified: 14 Mar 2024 02:53
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