R Crisovan scite author profile

We propose a novel model reduction approach for the approximation of non linear hyperbolic equations in the scalar and the system cases. The approach relies on an offline computation of a dictionary of solutions together with an online L 1 -norm minimization of the residual. It is shown why this is a natural framework for hyperbolic problems and tested on nonlinear problems such as Burgers' equation and the one-dimensional Euler equations involving shocks and discontinuities. Efficient algorithms are presented for the computation of the L 1 -norm minimizer, both in the cases of linear and nonlinear residuals. Results indicate that the method has the potential of being accurate when involving only very few modes, generating physically acceptable, oscillation-free, solutions.

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Model reduction using L¹‐norm minimization as an application to nonlinear hyperbolic problems

Abgrall

Crisovan

2018

Numerical Methods in Fluids

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Summary We are interested in the model reduction techniques for hyperbolic problems, particularly in fluids. This paper, which is a continuation of an earlier paper of Abgrall et al, proposes a dictionary approach coupled with an L1 minimization approach. We develop the method and analyze it in simplified 1‐dimensional cases. We show in this case that error bounds with the full model can be obtained provided that a suitable minimization approach is chosen. The capability of the algorithm is then shown on nonlinear scalar problems, 1‐dimensional unsteady fluid problems, and 2‐dimensional steady compressible problems. A short discussion on the cost of the method is also included in this paper.

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Model order reduction for parametrized nonlinear hyperbolic problems as an application to uncertainty quantification

Crisovan¹,

Torlo²,

Abgrall³

et al. 2019

Journal of Computational and Applied Mathematics

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In this work, we focus on reduced order modeling (ROM) techniques for hyperbolic conservation laws with application in uncertainty quantification (UQ) and in conjunction with the well-known Monte Carlo sampling method. Because we are interested in model order reduction (MOR) techniques for unsteady non-linear hyperbolic systems of conservation laws, which involve moving waves and discontinuities, we explore the parametertime framework and in the same time we deal with nonlinearities using a POD-EIM-Greedy algorithm [18]. We provide under some hypothesis an error indicator, which is also an error upper bound for the difference between the high fidelity solution and the reduced one.

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Model order reduction for parametrized nonlinear hyperbolic problems as an application to Uncertainty Quantification

Crisovan¹,

Torlo²,

Abgrall³

et al. 2018

Preprint

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R Crisovan

Robust model reduction by $$L^{1}$$-norm minimization and approximation via dictionaries: application to nonlinear hyperbolic problems

Model reduction using L¹‐norm minimization as an application to nonlinear hyperbolic problems

Model order reduction for parametrized nonlinear hyperbolic problems as an application to uncertainty quantification

Model order reduction for parametrized nonlinear hyperbolic problems as an application to Uncertainty Quantification

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R Crisovan

Robust model reduction by $$L^{1}$$-norm minimization and approximation via dictionaries: application to nonlinear hyperbolic problems

Model reduction using L1‐norm minimization as an application to nonlinear hyperbolic problems

Model order reduction for parametrized nonlinear hyperbolic problems as an application to uncertainty quantification

Model order reduction for parametrized nonlinear hyperbolic problems as an application to Uncertainty Quantification

Contact Info

Product

Resources

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Model reduction using L¹‐norm minimization as an application to nonlinear hyperbolic problems