A novel sequential design strategy for global surrogate modeling

In mathematical/statistical modeling of complex systems, the locations of the data points are essential to the success of the algorithm. Sequential design methods are iterative algorithms that use data acquired from previous iterations to guide future sample selection. They are often used to improve...

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Hauptverfasser:	Crombecq, K., De Tommasi, L., Gorissen, D., Dhaene, T.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Algorithm design and analysis Computational modeling Design for experiments Design methodology Hypercubes Iterative algorithms Linear approximation Mathematical model Monte Carlo methods Vehicle crash testing
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creator	Crombecq, K. De Tommasi, L. Gorissen, D. Dhaene, T.
description	In mathematical/statistical modeling of complex systems, the locations of the data points are essential to the success of the algorithm. Sequential design methods are iterative algorithms that use data acquired from previous iterations to guide future sample selection. They are often used to improve an initial design such as a Latin hypercube or a simple grid, in order to focus on highly dynamic parts of the design space. In this paper, a comparison is made between different sequential design methods for global surrogate modeling on a real-world electronics problem. Existing exploitation and exploration-based methods are compared against a novel hybrid technique which incorporates both an exploitation criterion, using local linear approximations of the objective function, and an exploration criterion, using a Monte Carlo Voronoi tessellation. The test results indicate that a considerable improvement of the average model accuracy can be achieved by using this new approach.
doi_str_mv	10.1109/WSC.2009.5429687
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subjects	Algorithm design and analysis Computational modeling Design for experiments Design methodology Hypercubes Iterative algorithms Linear approximation Mathematical model Monte Carlo methods Vehicle crash testing
title	A novel sequential design strategy for global surrogate modeling
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