DeepAI AI Chat
Log In Sign Up

Finite-Element Domain Approximation for Maxwell Variational Problems on Curved Domains

01/03/2022
by   Rubén Aylwin, et al.
0

We consider the problem of domain approximation in finite element methods for Maxwell equations on curved domains, i.e., when affine or polynomial meshes fail to exactly cover the domain of interest. In such cases, one is forced to approximate the domain by a sequence of polyhedral domains arising from inexact meshes. We deduce conditions on the quality of these approximations that ensure rates of error convergence between discrete solutions – in the approximate domains – to the continuous one in the original domain.

READ FULL TEXT

Related Research

research
05/27/2022

A short note on inf-sup conditions for the Taylor-Hood family Q_k-Q_k-1

We discuss two types of discrete inf-sup conditions for the Taylor-Hood ...
0 Walter Zulehner, et al.
research
07/22/2021

Evaluating the Quality of Finite Element Meshes with Machine Learning

This paper addresses the problem of evaluating the quality of finite ele...
0 Joachim Sprave, et al.
research
02/21/2018

Coupling non-conforming discretizations of PDEs by spectral approximation of the Lagrange multiplier space

This work focuses on the development of a non-conforming domain decompos...
0 Simone Deparis, et al.
research
11/21/2019

Multigrid in H(div) on Axisymmetric Domains

In this paper, we will construct and analyze a multigrid algorithm that ...
0 Minah Oh, et al.

Sign up for DeepAI

Already have an account? Login here

Login to DeepAI

Don't have an account? Signup here

Become a DeepAI PRO

$4.99/mo
500 generated images per month
Private image generation
Complete styles library
API access
Ad-free experience
*
This is a recurring payment that will happen monthly
*
If you exceed more than 500 images, they will be charged at a rate of $5 per 500 images

Pay as you go

$5 per 100 images
Private image generation
Complete styles library
API access
Ad-free experience

SHARE