Add to ORKGWe propose a framework for developing wall models for large-eddy simulation that is able to capture pressure-gradient effects using multi-agent reinforcement learning. Within this framework, the distributed reinforcement learning agents receive off-wall environmental states including pressure gradient and turbulence strain rate, ensuring adaptability to a wide range of flows characterized by pressure-gradient effects and separations. Based on these states, the agents determine an action to adjust the wall eddy viscosity, and consequently the wall-shear stress. The model training is in-situ with wall-modeled large-eddy simulation grid resolutions and does not rely on the instantaneous velocity fields from high-fidelity simulations. Throughou...
A new hybrid approach to model high Reynolds number wall-bounded turbulent flows is developed based ...
The aim of this work is to propose a new wall model for separated flows which is combined with large...
Wall-bounded turbulent flows are prevalent in engineering and industrial applications. Walls greatly...
The predictive capabilities of turbulent flow simulations, critical for aerodynamic design and weath...
The trubulent flow of fluids is still an enigma for mathematicians and engineers alike. The partial...
In turbulence-resolving simulations, smaller eddies account for most of the computational cost. This...
Flow turbulence modeling is an expensive computational operation that is often run with simulations ...
With the recent advances in machine learning, data-driven strategies could augment wall modeling in ...
This survey investigates wall modeling in large eddy simulations (LES) using data-driven machine lea...
The development of a reliable subgrid-scale (SGS) model for large-eddy simulation (LES) is of great ...
International audienceThis article presents a data-based methodology to build Reynolds-Averaged Navi...
Large-eddy simulation (LES) of wall-bounded flows is limited to moderate Reynolds number flows due t...
In the simulation of turbulent flows, resolving flow motions near a solid surface requires a high re...
The direct simulation of turbulent flows is prohibitive at high Reynolds numbers; thus, methods such...
Large-eddy simulation (LES) requires very high resolution in high Reynolds number, attached turbulen...
A new hybrid approach to model high Reynolds number wall-bounded turbulent flows is developed based ...
The aim of this work is to propose a new wall model for separated flows which is combined with large...
Wall-bounded turbulent flows are prevalent in engineering and industrial applications. Walls greatly...
The predictive capabilities of turbulent flow simulations, critical for aerodynamic design and weath...
The trubulent flow of fluids is still an enigma for mathematicians and engineers alike. The partial...
In turbulence-resolving simulations, smaller eddies account for most of the computational cost. This...
Flow turbulence modeling is an expensive computational operation that is often run with simulations ...
With the recent advances in machine learning, data-driven strategies could augment wall modeling in ...
This survey investigates wall modeling in large eddy simulations (LES) using data-driven machine lea...
The development of a reliable subgrid-scale (SGS) model for large-eddy simulation (LES) is of great ...
International audienceThis article presents a data-based methodology to build Reynolds-Averaged Navi...
Large-eddy simulation (LES) of wall-bounded flows is limited to moderate Reynolds number flows due t...
In the simulation of turbulent flows, resolving flow motions near a solid surface requires a high re...
The direct simulation of turbulent flows is prohibitive at high Reynolds numbers; thus, methods such...
Large-eddy simulation (LES) requires very high resolution in high Reynolds number, attached turbulen...
A new hybrid approach to model high Reynolds number wall-bounded turbulent flows is developed based ...
The aim of this work is to propose a new wall model for separated flows which is combined with large...
Wall-bounded turbulent flows are prevalent in engineering and industrial applications. Walls greatly...