This is the presentation of the masterthesis with the same title. In the thesis we present a space-filling curve for pyramid elements. We use the new approach for the formulation of discrete space-filling curves presented by Holke and develop a space-filling curve for pyramids that is based on the Morton-code for tetrahedra. We prove, that our curve fits the task of adaptive mesh refinement (AMR), namely that local operations on the mesh change the curve only locally. Furthermore, we develop the algorithms to use pyramids for AMR and implement them in the \tcode-library. We enable the support of pyramidal elements for the New, Partition, Adapt, Ghost and Balance high-level algorithms of tcode, which also results in a modified ve...
This article shows in detail how to construct in a simple and ordered way a set of rational function...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
Locally or adaptively refined meshes have been successfully applied to simulation applications invol...
In this thesis we present a space-filling curve for pyramid elements. We use the new approach for th...
We present a space-filling curve for pyramids to enable fully hybrid adaptive mesh refinement. The S...
The following slides are our contribution to the Meshing Contest of the International Meshing Roundt...
We present a newly developed, self-contained theory for discrete space-filling curves (SFCs). Mesh p...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
Numerical experiments in J. Maubach: Local bisection refinement and optimal order algebraic multilev...
In tree-based adaptive mesh refinement (AMR) we store refinement trees in the cells of an unstructur...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
Adaptive mesh refinement (AMR) suffers from the problem of hanging faces in regions where elements o...
We present a case study to improve the cache efficiency for a simulation on a tetrahedral bisection-...
In (dynamic) adaptive mesh refinement (AMR), a given input mesh is refined and coarsened during the ...
We present a new method for remeshing of triangular and tetrahedral meshes. Relative element sizes a...
This article shows in detail how to construct in a simple and ordered way a set of rational function...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
Locally or adaptively refined meshes have been successfully applied to simulation applications invol...
In this thesis we present a space-filling curve for pyramid elements. We use the new approach for th...
We present a space-filling curve for pyramids to enable fully hybrid adaptive mesh refinement. The S...
The following slides are our contribution to the Meshing Contest of the International Meshing Roundt...
We present a newly developed, self-contained theory for discrete space-filling curves (SFCs). Mesh p...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
Numerical experiments in J. Maubach: Local bisection refinement and optimal order algebraic multilev...
In tree-based adaptive mesh refinement (AMR) we store refinement trees in the cells of an unstructur...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
Adaptive mesh refinement (AMR) suffers from the problem of hanging faces in regions where elements o...
We present a case study to improve the cache efficiency for a simulation on a tetrahedral bisection-...
In (dynamic) adaptive mesh refinement (AMR), a given input mesh is refined and coarsened during the ...
We present a new method for remeshing of triangular and tetrahedral meshes. Relative element sizes a...
This article shows in detail how to construct in a simple and ordered way a set of rational function...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
Locally or adaptively refined meshes have been successfully applied to simulation applications invol...