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Cut Finite Element Methods on Overlapping Meshes: Analysis and Applications
Doktorsavhandling, 2021

In the analysis part (Paper I and Paper II), we consider cut finite element methods on overlapping meshes for a

*time-dependent*parabolic model problem: the heat equation on two overlapping meshes, where one mesh is allowed to move around on top of the other. In Paper I, the overlapping mesh is prescribed a cG(1) movement, meaning that its location as a function of time is

*continuous*and

*piecewise linear*. The cG(1) mesh movement results in a space-time discretization for which existing analysis methodologies either fail or are unsuitable. We therefore propose, to the best of our knowledge, a new energy analysis framework that is general enough to be applicable to the current setting. In Paper II, the overlapping mesh is prescribed a dG(0) movement, meaning that its location as a function of time is

*discontinuous*and

*piecewise constant*. The dG(0) mesh movement results in a space-time discretization for which existing analysis methodologies work with some modifications to handle the shift in the overlapping mesh's location at discrete times.

The applications part (Paper III, IV, and V) concerns cut finite element methods on overlapping meshes for

*stationary*PDE-problems. We consider two potential applications for CutFEM on overlapping meshes. The first application, presented in Paper III, presents methodology for evaluating configurations of buildings based on wind and view. The wind model is based on a CutFEM on overlapping meshes for Stokes equations. The second application, presented in Paper IV and Paper V, concerns a software application (app). The app lets a user define and solve physical problems governed by PDEs in an immersive and interactive augmented reality environment.

parabolic problem

multi-objective optimization

multi-mesh

energy analysis

CutFEM

augmented reality

overlapping meshes

moving meshes

## Författare

### Carl Lundholm

Chalmers, Matematiska vetenskaper, Tillämpad matematik och statistik

### Mats G. Larson, Anders Logg, Carl Lundholm A cut finite element method for the heat equation on overlapping meshes: Energy analysis for cG(1) mesh movement

### Mats G. Larson, Carl Lundholm A cut finite element method for the heat equation on overlapping meshes: L2-analysis for dG(0) mesh movement

### Anders Logg, Christian Valdemar Lorenzen, Carl Lundholm Multi-mesh multi-objective optimization with application to a model problem in urban design

### Solving Poisson’s Equation on the Microsoft HoloLens

Proceedings of the 23rd ACM Symposium on Virtual Reality Software and Technology,; (2017)

**Paper i proceeding**

### Finite element simulation of physical systems in augmented reality

Advances in Engineering Software,; Vol. 149(2020)

**Artikel i vetenskaplig tidskrift**

**A more efficient way to approximate physical phenomena**

To mathematically describe physical phenomena such as heat transfer and fluid flow, one generally uses a certain type of equations called

*differential equations*. Solving differential equations is therefore valuable for making adequate predictions of nature, which is important in many areas of science and engineering. However, differential equations can be quite hard or even impossible to solve

*exactly*. A compromise is therefore to solve them

*approximatively*instead. One way of doing this is with the

*finite element method*(FEM).

A key component of FEM is the computational

*mesh*. The mesh is a partition of the domain in which the differential equation is to be solved. If the domain changes, a new mesh might have to be generated which increases the computational cost. An alternative to costly remeshing is to use

*cut finite element methods*(CutFEMs). With CutFEM, the mesh and the domain may be completely unrelated. This means that the same mesh may be used for changing domains. A way to increase the sophistication of CutFEM further is to use

*overlapping meshes*, meaning a background mesh with one or more overlapping meshes on top of it.

This thesis presents both analysis and applications of CutFEMs on overlapping meshes. The analysis concerns time-dependent problems and the main contribution is a new analysis framework that is sufficiently robust to handle such problems. The applications concern stationary problems.

### Styrkeområden

Building Futures (2010-2018)

### Ämneskategorier

Beräkningsmatematik

### ISBN

978-91-7905-519-6

Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 4986

### Utgivare

Chalmers

Sal MC, M-huset, Hörsalsvägen 5

Opponent: Senior researcher Miguel A. Fernández, Inria, Frankrike