Machine Learning for Fluid Mechanics

On the Generalizability of Machine-Learning-Assisted Anisotropy Mappings for Predictive Turbulence Modelling ⋮ Nonintrusive Reduced Order Modelling of Convective Boussinesq Flows ⋮ GSA for machine learning problems: a comprehensive overview ⋮ DPM: a deep learning PDE augmentation method with application to large-eddy simulation ⋮ Deep learning of the spanwise-averaged Navier-Stokes equations ⋮ A data-driven physics-informed finite-volume scheme for nonclassical undercompressive shocks ⋮ Symplectic neural networks in Taylor series form for Hamiltonian systems ⋮ A long short-term memory embedding for hybrid uplifted reduced order models ⋮ NSFnets (Navier-Stokes flow nets): physics-informed neural networks for the incompressible Navier-Stokes equations ⋮ Physically interpretable machine learning algorithm on multidimensional non-linear fields ⋮ PhyGeoNet: physics-informed geometry-adaptive convolutional neural networks for solving parameterized steady-state PDEs on irregular domain ⋮ Direct shape optimization through deep reinforcement learning ⋮ Physics-inspired architecture for neural network modeling of forces and torques in particle-laden flows ⋮ DeepM\&Mnet: inferring the electroconvection multiphysics fields based on operator approximation by neural networks ⋮ Deep reinforcement learning for the control of conjugate heat transfer ⋮ Data-driven fractional subgrid-scale modeling for scalar turbulence: a nonlocal LES approach ⋮ Mesh-Conv: convolution operator with mesh resolution independence for flow field modeling ⋮ Simple computational strategies for more effective physics-informed neural networks modeling of turbulent natural convection ⋮ Machine learning for fluid flow reconstruction from limited measurements ⋮ Data-driven discovery of multiscale chemical reactions governed by the law of mass action ⋮ Adversarial sampling of unknown and high-dimensional conditional distributions ⋮ A general neural particle method for hydrodynamics modeling ⋮ Stable \textit{a posteriori} LES of 2D turbulence using convolutional neural networks: backscattering analysis and generalization to higher \(Re\) via transfer learning ⋮ A robust super-resolution reconstruction model of turbulent flow data based on deep learning ⋮ High-resolution fluid–particle interactions: a machine learning approach ⋮ VPVnet: A Velocity-Pressure-Vorticity Neural Network Method for the Stokes’ Equations under Reduced Regularity ⋮ Machine learning active-nematic hydrodynamics ⋮ Deep reinforcement learning of viscous incompressible flow ⋮ Modern Koopman Theory for Dynamical Systems ⋮ A simplified multilayer perceptron detector for the hybrid WENO scheme ⋮ A dynamic mode decomposition technique for the analysis of non-uniformly sampled flow data ⋮ Physics-informed distribution transformers via molecular dynamics and deep neural networks ⋮ Coupled and uncoupled dynamic mode decomposition in multi-compartmental systems with applications to epidemiological and additive manufacturing problems ⋮ Physics and equality constrained artificial neural networks: application to forward and inverse problems with multi-fidelity data fusion ⋮ ModalPINN: an extension of physics-informed neural networks with enforced truncated Fourier decomposition for periodic flow reconstruction using a limited number of imperfect sensors ⋮ Output-weighted and relative entropy loss functions for deep learning precursors of extreme events ⋮ Data driven modeling of interfacial traction-separation relations using a thermodynamically consistent neural network ⋮ SVD perspectives for augmenting DeepONet flexibility and interpretability ⋮ Solving Time Dependent Fokker-Planck Equations via Temporal Normalizing Flow ⋮ A projection-based, semi-implicit time-stepping approach for the Cahn-Hilliard Navier-Stokes equations on adaptive octree meshes ⋮ Detection of multiple interacting features of different strength in compressible flow fields ⋮ Transfer learning based physics-informed neural networks for solving inverse problems in engineering structures under different loading scenarios ⋮ Neural-network-based control of discrete-phase concentration in a gas-particle corner flow with optimal energy consumption ⋮ Leveraging reduced-order models for state estimation using deep learning ⋮ Output-weighted optimal sampling for Bayesian regression and rare event statistics using few samples ⋮ PDE-constrained models with neural network terms: optimization and global convergence ⋮ Thel₁-based sparsification of energy interactions in unsteady lid-driven cavity flow ⋮ The structure of reconstructed flows in latent spaces ⋮ Interpreting neural network models of residual scalar flux ⋮ Machine-learning-based spatio-temporal super resolution reconstruction of turbulent flows ⋮ Unsupervised deep learning for super-resolution reconstruction of turbulence ⋮ Turbulence theories and statistical closure approaches ⋮ Incorporating grain-scale processes in macroscopic sediment transport models. A review and perspectives for environmental and geophysical applications ⋮ Integration of neural networks with numerical solution of PDEs for closure models development ⋮ A data-driven smoothed particle hydrodynamics method for fluids ⋮ Recurrent neural networks (RNNs) learn the constitutive law of viscoelasticity ⋮ The most robust representations of flow trajectories are Lagrangian coherent structures ⋮ Phase-based control of periodic flows ⋮ Unsupervised modelling of a transitional boundary layer ⋮ A nudged hybrid analysis and modeling approach for realtime wake-vortex transport and decay prediction ⋮ Assimilation of disparate data for enhanced reconstruction of turbulent mean flows ⋮ Deep neural networks for waves assisted by the Wiener–Hopf method ⋮ SciANN: a Keras/Tensorflow wrapper for scientific computations and physics-informed deep learning using artificial neural networks ⋮ The neural particle method - an updated Lagrangian physics informed neural network for computational fluid dynamics ⋮ A physics-informed deep learning framework for inversion and surrogate modeling in solid mechanics ⋮ Diffusion maps-aided neural networks for the solution of parametrized PDEs ⋮ Embedding data analytics and CFD into the digital twin concept ⋮ Efficient computations for linear feedback control problems for target velocity matching of Navier-Stokes flows via POD and LSTM-ROM ⋮ Large-eddy simulation on the similarity between wakes of wind turbines with different yaw angles ⋮ Spatio-temporal microstructure of sprays: data science-based analysis and modelling ⋮ The turbulent dynamo ⋮ Reinforcement-learning-based control of confined cylinder wakes with stability analyses ⋮ Data-driven discovery of governing equations for fluid dynamics based on molecular simulation ⋮ Conditioning and accurate solutions of Reynolds average Navier–Stokes equations with data-driven turbulence closures ⋮ Flow over an espresso cup: inferring 3-D velocity and pressure fields from tomographic background oriented Schlieren via physics-informed neural networks ⋮ Variational Inference Formulation for a Model-Free Simulation of a Dynamical System with Unknown Parameters by a Recurrent Neural Network ⋮ PhyCRNet: physics-informed convolutional-recurrent network for solving spatiotemporal PDEs ⋮ Data-driven resolvent analysis ⋮ 9 From the POD-Galerkin method to sparse manifold models ⋮ Deep learning of conjugate mappings ⋮ Nonlinear mode decomposition with convolutional neural networks for fluid dynamics ⋮ A Deep Learning Approach for the Computation of Curvature in the Level-Set Method ⋮ Assessments of epistemic uncertainty using Gaussian stochastic weight averaging for fluid-flow regression ⋮ Stabilized reduced-order models for unsteady incompressible flows in three-dimensional parametrized domains ⋮ Three-dimensional realizations of flood flow in large-scale rivers using the neural fuzzy-based machine-learning algorithms ⋮ Coherent structure identification in turbulent channel flow using latent Dirichlet allocation ⋮ Mapping of coherent structures in parameterized flows by learning optimal transportation with Gaussian models ⋮ Subgrid-scale model for large-eddy simulation of isotropic turbulent flows using an artificial neural network ⋮ Robust flow control and optimal sensor placement using deep reinforcement learning ⋮ Physics-based self-learning recurrent neural network enhanced time integration scheme for computing viscoplastic structural finite element response ⋮ Synchronization and chimeras in a network of four ring-coupled thermoacoustic oscillators ⋮ Theory-guided physics-informed neural networks for boundary layer problems with singular perturbation ⋮ Cluster-based hierarchical network model of the fluidic pinball – cartographing transient and post-transient, multi-frequency, multi-attractor behaviour ⋮ Application of physics-constrained data-driven reduced-order models to shape optimization ⋮ Reinforcement-learning-based control of convectively unstable flows ⋮ Reinforcement-learning-based actuator selection method for active flow control ⋮ Multiresolution convolutional autoencoders ⋮ A sparse optimal closure for a reduced-order model of wall-bounded turbulence ⋮ Physics-guided deep learning for generating turbulent inflow conditions ⋮ A transformer-based synthetic-inflow generator for spatially developing turbulent boundary layers