Ondine Chanon scite author profile

Ondine Chanon

5Publications

29Citation Statements Received

0Citation Statements Given

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136

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École Polytechnique Fédérale de Lausanne

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Analysis-aware defeaturing: Problem setting and a posteriori estimation

Buffa

Chanon

Vázquez

2022

Math. Models Methods Appl. Sci.

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Defeaturing consists in simplifying geometrical models by removing the geometrical features that are considered not relevant for a given simulation. Feature removal and simplification of computer-aided design models enables faster simulations for engineering analysis problems, and simplifies the meshing problem that is otherwise often unfeasible. The effects of defeaturing on the analysis are then neglected and as of today, there are basically very few strategies to quantitatively evaluate such an impact. Understanding well the effects of this process is an important step for automatic integration of design and analysis. We formalize the process of defeaturing by understanding its effect on the solution of Poisson equation defined on the geometrical model of interest containing a single feature, with Neumann boundary conditions on the feature itself. We derive an a posteriori estimator of the energy error between the solutions of the exact and the defeatured geometries in [Formula: see text], [Formula: see text], that is simple, reliable and efficient up to oscillations. The dependence of the estimator upon the size of the features is explicit.

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A Computational Comparison Between Isogeometric Analysis and Spectral Element Methods: Accuracy and Spectral Properties

et al. 2020

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Analysis-aware defeaturing: problem setting and a posteriori estimation

Buffa¹,

Chanon²,

Vázquez³

2020

Preprint

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Adaptive analysis-aware defeaturing

Buffa¹,

Chanon²,

Vázquez³

2022

Preprint

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Ana posteriorierror estimator for isogeometric analysis on trimmed geometries

Buffa

Chanon

Vázquez

2022

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Trimming consists of cutting away parts of a geometric domain, without reconstructing a global parametrization (meshing). It is a widely used operation in computer-aided design, which generates meshes that are unfitted with the described physical object. This paper develops an adaptive mesh refinement strategy on trimmed geometries in the context of hierarchical B-spline-based isogeometric analysis. A residual a posteriori estimator of the energy norm of the numerical approximation error is derived, in the context of the Poisson equation. The estimator is proven to be reliable, independently of the number of hierarchical levels and of the way the trimmed boundaries cut the underlying mesh. Numerical experiments are performed to validate the presented theory, and to show that the estimator’s effectivity index is independent of the size of the active part of the trimmed mesh elements.

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Ondine Chanon

Analysis-aware defeaturing: Problem setting and a posteriori estimation

A Computational Comparison Between Isogeometric Analysis and Spectral Element Methods: Accuracy and Spectral Properties

Analysis-aware defeaturing: problem setting and a posteriori estimation

Adaptive analysis-aware defeaturing

Ana posteriorierror estimator for isogeometric analysis on trimmed geometries

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