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Attention-enhanced neural network models for turbulence simulation

Wenhui Peng, Zelong Yuan, Jianchun Wang

2022Physics of Fluids62 citationsDOIOpen Access PDF

Abstract

Deep neural network models have shown great potential in accelerating the simulation of fluid dynamic systems. Once trained, these models can make inferences within seconds, thus can be extremely efficient. However, it becomes more difficult for neural networks to make accurate predictions when the flow becomes more chaotic and turbulent at higher Reynolds numbers. One of the most important reasons is that existing models lack the mechanism to handle the unique characteristic of high-Reynolds-number turbulent flow; multi-scale flow structures are nonuniformly distributed and strongly nonequilibrium. In this work, we address this issue with the concept of visual attention: intuitively, we expect the attention module to capture the nonequilibrium of turbulence by automatically adjusting weights on different regions. We compare the model performance against a state-of-the-art neural network model as the baseline, the Fourier neural operator, on a two-dimensional turbulence prediction task. Numerical experiments show that the attention-enhanced neural network model outperforms existing state-of-the-art baselines, and can accurately reconstruct a variety of statistics and instantaneous spatial structures of turbulence at high Reynolds numbers. Furthermore, the attention mechanism provides 40% error reduction with 1% increase in parameters, at the same level of computational cost.

Topics & Concepts

TurbulencePhysicsArtificial neural networkBenchmark (surveying)Flow (mathematics)Statistical physicsK-epsilon turbulence modelComputational fluid dynamicsReynolds numberGyrokineticsAlgorithmArtificial intelligenceComputer scienceMechanicsTokamakQuantum mechanicsGeodesyGeographyPlasmaModel Reduction and Neural NetworksFluid Dynamics and Turbulent FlowsFluid Dynamics and Vibration Analysis
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