Comparative analysis of machine learning methods for active flow control

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Comparative analysis of machine learning methods for active flow control

Journal of Fluid Mechanics (JFM), 2022

23 February 2022

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Papers citing "Comparative analysis of machine learning methods for active flow control"

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Title
Multi-agent reinforcement learning for the control of three-dimensional Rayleigh-Bénard convection Mirko Conrad Jean Rabault Francisco Alcántara-Ávila Mikael Mortensen Ricardo Vinuesa AI4CE 172 9 0 31 Jul 2024
Optimal Parallelization Strategies for Active Flow Control in Deep Reinforcement Learning-Based Computational Fluid Dynamics Wang Jia Hang Xu AI4CE 226 7 0 18 Feb 2024
Dynamic Feature-based Deep Reinforcement Learning for Flow Control of Circular Cylinder with Sparse Surface Pressure SensingJournal of Fluid Mechanics (JFM), 2023 Qiulei Wang Lei Yan Gang Hu Wenli Chen Jean Rabault B. R. Noack AI4CE 186 43 0 05 Jul 2023
How to Control Hydrodynamic Force on Fluidic Pinball via Deep Reinforcement LearningThe Physics of Fluids (Phys. Fluids), 2023 Haodong Feng Yue Wang Hui Xiang Zhiyang Jin Dixia Fan AI4CE 142 12 0 23 Apr 2023
Effective control of two-dimensional Rayleigh--Bénard convection: invariant multi-agent reinforcement learning is all you needThe Physics of Fluids (Phys. Fluids), 2023 Colin Vignon Jean Rabault Joel Vasanth Francisco Alcántara-Ávila M. Mortensen Ricardo Vinuesa AI4CE 209 54 0 05 Apr 2023
Deep Learning Closure Models for Large-Eddy Simulation of Flows around Bluff BodiesJournal of Fluid Mechanics (JFM), 2022 Justin A. Sirignano J. MacArt AI4CE PINN 153 34 0 06 Aug 2022
A review on Deep Reinforcement Learning for Fluid MechanicsComputers & Fluids (Comput. Fluids), 2019 Paul Garnier J. Viquerat Jean Rabault A. Larcher A. Kuhnle E. Hachem AI4CE 202 286 0 12 Aug 2019