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Multi-fidelity transonic aerodynamic loads estimation using Bayesian neural networks with transfer learning

Multi-fidelity transonic aerodynamic loads estimation using Bayesian neural networks with transfer learning
Multi-fidelity transonic aerodynamic loads estimation using Bayesian neural networks with transfer learning
Multi-fidelity surrogate models are of particular interest in aerospace applications, as they combine the computational efficiency of low-fidelity simulations with the accuracy of high-fidelity models. This methodology, often implemented via data fusion, aims to reduce the cost of data generation while preserving predictive accuracy. Despite the widespread use of traditional machine learning techniques to improve surrogates and perform data fusion tasks, there remains a need for novel approaches that further improve predictive reliability—particularly in terms of uncertainty quantification—without substantially increasing the computational cost of generating high-fidelity training samples. In this study, we propose a Bayesian neural network framework designed for multi-fidelity prediction of transonic aerodynamic data, employing transfer learning to integrate computational fluid dynamics data of varying fidelities. The probabilistic nature of the model allows also quantification of the uncertainty in the input space, making it well suited for analyzing the inherently complex and nonlinear behavior of the transonic aerodynamic responses under investigation. Our results demonstrate that the proposed multi-fidelity Bayesian model outperforms classical data fusion Co-Kriging method, both in accuracy and generalization capabilities on unseen data.
1270-9638
Vaiuso, Andrea
dd21d7b6-622a-483a-81f2-d139ae1fbffa
Immordino, Gabriele
ed9626cc-aa2b-40be-b376-0868967e5e65
Righi, Marcello
9be8e04a-ba75-420a-8394-a2c1e0afc476
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Vaiuso, Andrea
dd21d7b6-622a-483a-81f2-d139ae1fbffa
Immordino, Gabriele
ed9626cc-aa2b-40be-b376-0868967e5e65
Righi, Marcello
9be8e04a-ba75-420a-8394-a2c1e0afc476
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a

Vaiuso, Andrea, Immordino, Gabriele, Righi, Marcello and Da Ronch, Andrea (2025) Multi-fidelity transonic aerodynamic loads estimation using Bayesian neural networks with transfer learning. Aerospace Science and Technology, 163, [110301]. (doi:10.1016/j.ast.2025.110301).

Record type: Article

Abstract

Multi-fidelity surrogate models are of particular interest in aerospace applications, as they combine the computational efficiency of low-fidelity simulations with the accuracy of high-fidelity models. This methodology, often implemented via data fusion, aims to reduce the cost of data generation while preserving predictive accuracy. Despite the widespread use of traditional machine learning techniques to improve surrogates and perform data fusion tasks, there remains a need for novel approaches that further improve predictive reliability—particularly in terms of uncertainty quantification—without substantially increasing the computational cost of generating high-fidelity training samples. In this study, we propose a Bayesian neural network framework designed for multi-fidelity prediction of transonic aerodynamic data, employing transfer learning to integrate computational fluid dynamics data of varying fidelities. The probabilistic nature of the model allows also quantification of the uncertainty in the input space, making it well suited for analyzing the inherently complex and nonlinear behavior of the transonic aerodynamic responses under investigation. Our results demonstrate that the proposed multi-fidelity Bayesian model outperforms classical data fusion Co-Kriging method, both in accuracy and generalization capabilities on unseen data.

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Accepted/In Press date: 4 May 2025
e-pub ahead of print date: 9 May 2025
Published date: 13 May 2025

Identifiers

Local EPrints ID: 504240
URI: http://eprints.soton.ac.uk/id/eprint/504240
DOI: doi:10.1016/j.ast.2025.110301
ISSN: 1270-9638
PURE UUID: 640eeb13-cae7-49db-9d83-41d4fb898a80
ORCID for Gabriele Immordino: ORCID iD orcid.org/0000-0003-2718-0120
ORCID for Andrea Da Ronch: ORCID iD orcid.org/0000-0001-7428-6935

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Date deposited: 02 Sep 2025 16:41
Last modified: 17 Sep 2025 02:05

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Contributors

Author: Andrea Vaiuso
Author: Gabriele Immordino ORCID iD
Author: Marcello Righi
Author: Andrea Da Ronch ORCID iD

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