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2021 | OriginalPaper | Buchkapitel

Data Assimilation Using Heteroscedastic Bayesian Neural Network Ensembles for Reduced-Order Flame Models

verfasst von : Maximilian L. Croci, Ushnish Sengupta, Matthew P. Juniper

Erschienen in: Computational Science – ICCS 2021

Verlag: Springer International Publishing

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Abstract

The parameters of a level-set flame model are inferred using an ensemble of heteroscedastic Bayesian neural networks (BayNNEs). The neural networks are trained on a library of 1.7 million observations of 8500 simulations of the flame edge, obtained using the model with known parameters. The ensemble produces samples from the posterior probability distribution of the parameters, conditioned on the observations, as well as estimates of the uncertainties in the parameters. The predicted parameters and uncertainties are compared to those inferred using an ensemble Kalman filter. The expected parameter values inferred with the BayNNE method, once trained, match those inferred with the Kalman filter but require less than one millionth of the time and computational cost of the Kalman filter. This method enables a physics-based model to be tuned from experimental images in real time.

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Fußnoten
1
Cantera is a suite of tools for problems involving chemical kinetics, thermodynamics, and transport processes [13].
 
2
The EnKF is fully parallelised: the processors have 32 cores in total, one for each member in the ensemble.
 
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Metadaten
Titel
Data Assimilation Using Heteroscedastic Bayesian Neural Network Ensembles for Reduced-Order Flame Models
verfasst von
Maximilian L. Croci
Ushnish Sengupta
Matthew P. Juniper
Copyright-Jahr
2021
DOI
https://doi.org/10.1007/978-3-030-77977-1_33