The Dakota Project: Connecting the Pipeline from Uncertainty Quantification R&D to Mission Impact
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Jump to search filtersMFNets: data efficient all-at-once learning of multifidelity surrogates as directed networks of information sources
Computational Mechanics
We present an approach for constructing a surrogate from ensembles of information sources of varying cost and accuracy. The multifidelity surrogate encodes connections between information sources as a directed acyclic graph, and is trained via gradient-based minimization of a nonlinear least squares objective. While the vast majority of state-of-the-art assumes hierarchical connections between information sources, our approach works with flexibly structured information sources that may not admit a strict hierarchy. The formulation has two advantages: (1) increased data efficiency due to parsimonious multifidelity networks that can be tailored to the application; and (2) no constraints on the training data—we can combine noisy, non-nested evaluations of the information sources. Finally, numerical examples ranging from synthetic to physics-based computational mechanics simulations indicate the error in our approach can be orders-of-magnitude smaller, particularly in the low-data regime, than single-fidelity and hierarchical multifidelity approaches.
Efficient Deployment of Multifidelity Sampling Methods in Production Settings
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Low-Rank Tensor Network Approximations for Earth System Model
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Recent Advances in Adaptive Refinement of (Regression-Based) Multifidelity Surrogates for UQ
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Multilevel / Multifidelity Sampling and Emulation for Forward UQ
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Experience with Multilevel/Multifidelity/Multi-Index Sampling and Surrogate Approaches for Forward Uncertainty Quantification
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Recent Advancements for Multifidelity UQ and OUU in Dakota: Capability Overview and Perspectives
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Low-Rank Functional Tensor Train Representations for High-Dimensional Computational Models
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Exploiting Model Structure for Forward Propagation of Uncertainty in Earth System Models
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Low-rank Tensor Integration for Gaussian Filtering of Continuous TIme Nonlinear Systems
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Low-rank functional decompositions with applications to stochastic optimal control
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Tractable Uncertainty Quantification: Exploiting Structure
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Multilevel-Multifidelity Expansions with Application to Forward UQ OUU and Emulator-Based Bayesian Inference
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Sampling Polynomial Chaos and Functional Tensor Train Multilevel/Multifidelity Strategies for Forward UQ
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Optimization under uncertainty and high dimensional regression for additive manufacturing
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Low-rank functional approximation for Gaussian %0Cfiltering
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High-dimensional regression of low-rank functions
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Automated synthesis of low-rank control systems from sc-LTL specifications using tensor-train decompositions
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