We propose two new strategies based on Machine Learning techniques to handle polyhedral grid refinement, to be possibly employed within an adaptive framework. The first one employs the k-means clustering algorithm to partition the points of the polyhedron to be refined. This strategy is a variation of the well known Centroidal Voronoi Tessellation. The second one employs Convolutional Neural Networks to classify the "shape" of an element so that "ad-hoc" refinement criteria can be defined. This strategy can be used to enhance existing refinement strategies, including the k-means strategy, at a low online computational cost. We test the proposed algorithms considering two families of finite element methods that support arbitrarily shaped pol...
[EN] The growing number of scientific publications on topology optimization (TO) shows the great int...
Partial differential equations can be solved on general polygonal and polyhedral meshes, through Pol...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...
We propose new strategies to handle polygonal grids refinement based on Con-volutional Neural Networ...
Agglomeration-based strategies are important both within adaptive refinement algorithms and to const...
International audienceIn this paper, we propose an adaptive polygonal mesh coarsening algorithm. Thi...
Finite element method is a popular way of solving engineering problems in geoengineering. Three-dime...
We investigate parallel adaptive grid refinement and focus in particular on hierarchically adaptive,...
We present a distributed parallel mesh curving method for virtual geometry. The main application is ...
In the discretization of differential problems on complex geometrical domains, discretization method...
A simple algorithm yielding unique face subdivision patterns of locally refined tetrahedral elements...
In topology optimization literature, the parameterization of design is commonly carried out on unifo...
Due to its unique and intriguing properties, polygonal and polyhedral discretization is an emerging ...
This paper revisits a local mesh modification method known as the Small Polyhedron Reconnection (SPR...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
[EN] The growing number of scientific publications on topology optimization (TO) shows the great int...
Partial differential equations can be solved on general polygonal and polyhedral meshes, through Pol...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...
We propose new strategies to handle polygonal grids refinement based on Con-volutional Neural Networ...
Agglomeration-based strategies are important both within adaptive refinement algorithms and to const...
International audienceIn this paper, we propose an adaptive polygonal mesh coarsening algorithm. Thi...
Finite element method is a popular way of solving engineering problems in geoengineering. Three-dime...
We investigate parallel adaptive grid refinement and focus in particular on hierarchically adaptive,...
We present a distributed parallel mesh curving method for virtual geometry. The main application is ...
In the discretization of differential problems on complex geometrical domains, discretization method...
A simple algorithm yielding unique face subdivision patterns of locally refined tetrahedral elements...
In topology optimization literature, the parameterization of design is commonly carried out on unifo...
Due to its unique and intriguing properties, polygonal and polyhedral discretization is an emerging ...
This paper revisits a local mesh modification method known as the Small Polyhedron Reconnection (SPR...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
[EN] The growing number of scientific publications on topology optimization (TO) shows the great int...
Partial differential equations can be solved on general polygonal and polyhedral meshes, through Pol...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...