Optimal Data Generation in Multi-Dimensional Parameter Spaces, using Bayesian Optimization
December 04, 2023 ยท Declared Dead ยท ๐ Machine Learning: Science and Technology
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Authors
M. R. Mahani, Igor A. Nechepurenko, Yasmin Rahimof, Andreas Wicht
arXiv ID
2312.02012
Category
cs.LG: Machine Learning
Cross-listed
physics.app-ph,
physics.comp-ph
Citations
7
Venue
Machine Learning: Science and Technology
Last Checked
4 months ago
Abstract
Acquiring a substantial number of data points for training accurate machine learning (ML) models is a big challenge in scientific fields where data collection is resource-intensive. Here, we propose a novel approach for constructing a minimal yet highly informative database for training ML models in complex multi-dimensional parameter spaces. To achieve this, we mimic the underlying relation between the output and input parameters using Gaussian process regression (GPR). Using a set of known data, GPR provides predictive means and standard deviation for the unknown data. Given the predicted standard deviation by GPR, we select data points using Bayesian optimization to obtain an efficient database for training ML models. We compare the performance of ML models trained on databases obtained through this method, with databases obtained using traditional approaches. Our results demonstrate that the ML models trained on the database obtained using Bayesian optimization approach consistently outperform the other two databases, achieving high accuracy with a significantly smaller number of data points. Our work contributes to the resource-efficient collection of data in high-dimensional complex parameter spaces, to achieve high precision machine learning predictions.
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