Turbulence modeling for physics-informed neural networks: Comparison of different rans models for the backward-facing step flow.Fluids, 8(2):43

Fabian Pioch, Jan Hauke Harmening, Andreas Maximilian Müller, Franz-Josef Peitzmann, Dieter Schramm, Ould el Moctar · 2023

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Multiscale Physics-Informed Neural Network for Complex Fluid Flows with Long-Range Dependencies

physics.flu-dyn · 2026-04-07 · unverdicted · novelty 5.0

DDS-PINN uses localized neural networks plus a unified global loss to model multiscale fluid flows with long-range dependencies, achieving CFD-comparable accuracy on laminar backward-facing step flow with zero data and O(10^-4) error on turbulent flow with only 500 supervision points.

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Multiscale Physics-Informed Neural Network for Complex Fluid Flows with Long-Range Dependencies physics.flu-dyn · 2026-04-07 · unverdicted · none · ref 20
DDS-PINN uses localized neural networks plus a unified global loss to model multiscale fluid flows with long-range dependencies, achieving CFD-comparable accuracy on laminar backward-facing step flow with zero data and O(10^-4) error on turbulent flow with only 500 supervision points.

Turbulence modeling for physics-informed neural networks: Comparison of different rans models for the backward-facing step flow.Fluids, 8(2):43

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