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Entropy, Vol. 20, Pages 201: Global Optimization Employing Gaussian Process-Based Bayesian Surrogates

Entropy, Vol. 20, Pages 201: Global Optimization Employing Gaussian Process-Based Bayesian Surrogates

Entropy doi: 10.3390/e20030201

Authors: Roland Preuss Udo von Toussaint

The simulation of complex physics models may lead to enormous computer running times. Since the simulations are expensive it is necessary to exploit the computational budget in the best possible manner. If for a few input parameter settings an output data set has been acquired, one could be interested in taking these data as a basis for finding an extremum and possibly an input parameter set for further computer simulations to determine it—a task which belongs to the realm of global optimization. Within the Bayesian framework we utilize Gaussian processes for the creation of a surrogate model function adjusted self-consistently via hyperparameters to represent the data. Although the probability distribution of the hyperparameters may be widely spread over phase space, we make the assumption that only the use of their expectation values is sufficient. While this shortcut facilitates a quickly accessible surrogate, it is somewhat justified by the fact that we are not interested in a full representation of the model by the surrogate but to reveal its maximum. To accomplish this the surrogate is fed to a utility function whose extremum determines the new parameter set for the next data point to obtain. Moreover, we propose to alternate between two utility functions—expected improvement and maximum variance—in order to avoid the drawbacks of each. Subsequent data points are drawn from the model function until the procedure either remains in the points found or the surrogate model does not change with the iteration. The procedure is applied to mock data in one and two dimensions in order to demonstrate proof of principle of the proposed approach.

Authors:   Preuss, Roland ; von Toussaint, Udo
Journal:   Entropy
Volume:   20
edition:   3
Year:   2018
Pages:   201
DOI:   10.3390/e20030201
Publication date:   16-Mar-2018
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