EuroPED-NN: uncertainty aware surrogate model
Author | |
Abstract |
This work successfully generates an uncertainty-aware surrogate model of the EuroPED plasma pedestal model using the Bayesian neural network with noise contrastive prior (BNN-NCP) technique. This model is trained using data from the JET-ILW pedestal database and subsequent model evaluations, conforming to EuroPED-NN. The BNN-NCP technique has been proven to be a suitable method for generating uncertainty-aware surrogate models. It matches the output results of a regular neural network while providing confidence estimates for predictions as uncertainties. Additionally, it highlights out-of-distribution regions using surrogate model uncertainties. This provides critical insights into model robustness and reliability. EuroPED-NN has been physically validated, first, analyzing electron density n e (V pol = 0.94) with respect to increasing plasma current, I p, and second, validating the delta - Beta p,ped relation associated with the EuroPED model. This affirms the robustness of the underlying physics learned by the surrogate model. On top of that, the method was used to develop a EuroPED-like model fed with experimental data, i.e. an uncertainty aware experimental model, which is functional in JET database. Both models have been also tested in ∼50 AUG shots. |
Year of Publication |
2024
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Journal |
Plasma Physics and Controlled Fusion
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Volume |
66
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Issue |
9
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Number of Pages |
095012
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DOI |
10.1088/1361-6587/ad6707
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PId |
5e432c3efef3e9c8e45528a6e1e67ede
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Alternate Journal |
Plasma Phys. Control. Fusion
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Label |
OA
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Journal Article
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