Model reduction and neural networks for parametric PDEs

Solving and learning nonlinear PDEs with Gaussian processes ⋮ Analysis of heterogeneous structures of non-separated scales using curved bridge nodes ⋮ Two-Layer Neural Networks with Values in a Banach Space ⋮ A deep learning approach to Reduced Order Modelling of parameter dependent partial differential equations ⋮ The deep parametric PDE method and applications to option pricing ⋮ A finite element based deep learning solver for parametric PDEs ⋮ Nonlinear Reduced DNN Models for State Estimation ⋮ slimTrain---A Stochastic Approximation Method for Training Separable Deep Neural Networks ⋮ Structure preservation for the deep neural network multigrid solver ⋮ AMS-Net: Adaptive Multiscale Sparse Neural Network with Interpretable Basis Expansion for Multiphase Flow Problems ⋮ DRIPS: a framework for dimension reduction and interpolation in parameter space ⋮ Conditional variational autoencoder with Gaussian process regression recognition for parametric models ⋮ A framework for machine learning of model error in dynamical systems ⋮ Neural control of discrete weak formulations: Galerkin, least squares \& minimal-residual methods with quasi-optimal weights ⋮ Learning high-dimensional parametric maps via reduced basis adaptive residual networks ⋮ Mesh-informed neural networks for operator learning in finite element spaces ⋮ Fully probabilistic deep models for forward and inverse problems in parametric PDEs ⋮ Learning Markovian Homogenized Models in Viscoelasticity ⋮ Convergence Rates for Learning Linear Operators from Noisy Data ⋮ Neural Galerkin schemes with active learning for high-dimensional evolution equations ⋮ Deep convolutional Ritz method: parametric PDE surrogates without labeled data ⋮ A Data-Assisted Two-Stage Method for the Inverse Random Source Problem ⋮ Residual-based error correction for neural operator accelerated Infinite-dimensional Bayesian inverse problems ⋮ Quantum Mechanics for Closure of Dynamical Systems ⋮ Connections between Operator-Splitting Methods and Deep Neural Networks with Applications in Image Segmentation ⋮ Quality measures for the evaluation of machine learning architectures on the quantification of epistemic and aleatoric uncertainties in complex dynamical systems ⋮ Model reduction of coupled systems based on non-intrusive approximations of the boundary response maps ⋮ Large-scale Bayesian optimal experimental design with derivative-informed projected neural network ⋮ Semi-supervised invertible neural operators for Bayesian inverse problems ⋮ SPADE4: sparsity and delay embedding based forecasting of epidemics ⋮ A learned conservative semi-Lagrangian finite volume scheme for transport simulations ⋮ Nonintrusive Reduced-Order Models for Parametric Partial Differential Equations via Data-Driven Operator Inference ⋮ Learning the random variables in Monte Carlo simulations with stochastic gradient descent: Machine learning for parametric PDEs and financial derivative pricing ⋮ Active-learning-driven surrogate modeling for efficient simulation of parametric nonlinear systems ⋮ A nonlinear-manifold reduced-order model and operator learning for partial differential equations with sharp solution gradients ⋮ Physics-informed machine learning method with space-time Karhunen-Loève expansions for forward and inverse partial differential equations ⋮ Optimal Dirichlet boundary control by Fourier neural operators applied to nonlinear optics ⋮ Kernel methods are competitive for operator learning ⋮ Derivative-informed neural operator: an efficient framework for high-dimensional parametric derivative learning ⋮ Foundations of Bayesian inference for complex statistical models. Abstracts from the workshop held May 2--8, 2021 (hybrid meeting) ⋮ Computation and learning in high dimensions. Abstracts from the workshop held August 1--7, 2021 (hybrid meeting) ⋮ An introduction to finite element methods for inverse coefficient problems in elliptic PDEs ⋮ Unnamed Item ⋮ The Random Feature Model for Input-Output Maps between Banach Spaces ⋮ Learning phase field mean curvature flows with neural networks ⋮ Deep-HyROMnet: a deep learning-based operator approximation for hyper-reduction of nonlinear parametrized PDEs ⋮ Solving parametric partial differential equations with deep rectified quadratic unit neural networks

• darch
• redbKIT
• PMTK
• EikoNet
• DeepONet

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• Reduced basis techniques for stochastic problems
• Besov priors for Bayesian inverse problems
• Convergence rates of best \(N\)-term Galerkin approximations for a class of elliptic SPDEs
• A comprehensive deep learning-based approach to reduced order modeling of nonlinear time-dependent parametrized PDEs
• Lower bounds for approximation by MLP neural networks
• Non-intrusive reduced order modeling of nonlinear problems using neural networks
• Bayesian deep convolutional encoder-decoder networks for surrogate modeling and uncertainty quantification
• The Deep Ritz Method: a deep learning-based numerical algorithm for solving variational problems
• An `empirical interpolation' method: Application to efficient reduced-basis discretization of partial differential equations
• Deep neural networks motivated by partial differential equations
• Operator inference for non-intrusive model reduction of systems with non-polynomial nonlinear terms
• Efficient approximation of solutions of parametric linear transport equations by ReLU DNNs
• Lift \& learn: physics-informed machine learning for large-scale nonlinear dynamical systems
• Non-intrusive reduced order modeling of unsteady flows using artificial neural networks with application to a combustion problem
• Model reduction of dynamical systems on nonlinear manifolds using deep convolutional autoencoders
• Error bounds for approximations with deep ReLU networks
• Data-driven operator inference for nonintrusive projection-based model reduction
• Physics-informed neural networks: a deep learning framework for solving forward and inverse problems involving nonlinear partial differential equations
• Prediction of aerodynamic flow fields using convolutional neural networks
• A proposal on machine learning via dynamical systems
• Sparse adaptive Taylor approximation algorithms for parametric and stochastic elliptic PDEs
• An Introduction to Computational Stochastic PDEs
• Well-posed Bayesian geometric inverse problems arising in subsurface flow
• Certified Reduced Basis Methods for Parametrized Partial Differential Equations
• A parameterized-background data-weak approach to variational data assimilation: formulation, analysis, and application to acoustics
• Refined generalizations of the triangle inequality on Banach spaces
• ANALYTIC REGULARITY AND POLYNOMIAL APPROXIMATION OF PARAMETRIC AND STOCHASTIC ELLIPTIC PDE'S
• Reducing the Dimensionality of Data with Neural Networks
• On the Eigenspectrum of the Gram Matrix and the Generalization Error of Kernel-PCA
• On the Sum of the Largest Eigenvalues of a Symmetric Matrix
• Gaussian Measures on Function Spaces
• Modal representation of geometrically nonlinear behavior by the finite element method
• Solving ill-posed inverse problems using iterative deep neural networks
• Stable architectures for deep neural networks
• Deep learning in high dimension: Neural network expression rates for generalized polynomial chaos expansions in UQ
• Geometric diffusions as a tool for harmonic analysis and structure definition of data: Diffusion maps
• Learning Theory
• Laplacian Eigenmaps for Dimensionality Reduction and Data Representation
• Probabilistic Forecasting and Bayesian Data Assimilation
• Approximation of high-dimensional parametric PDEs
• Data Assimilation
• Data Assimilation in Reduced Modeling
• Reduced Basis Methods for Partial Differential Equations