Spectral Discontinuous Galerkin Method for Hyperbolic Problems

In this project we address the numerical approximation of hyperbolic equations and systems using the discontinuous Galerkin (DG) method in combination with higher order polynomial degrees. In short, this is called Spectral Discontinuous Galerkin (SDG) method. Our interest is to review the theoretical properties of the SDG-method, particularly for what concerns stability, convergence, dissipation and dispersion. Special emphases will be shed on the role of the two parameters,(the grid-size) and (the local polynomial degree). In this respect, we will carefully analyse the available theoretical results from the literature, then we extend some of them and implement several test cases with the purpose of assessing quantitatively the predicted theoretical properties.

Spectral Discontinuous Galerkin Method for Hyperbolic Problems

On the fast assemblage of finite element matrices with application to nonlinear heat transfer problems

Hyperbolic representations of PU(1,n)

Conservation of Forces and Total Work at the Interface Using the Internodes Method

On the fast assemblage of finite element matrices with application to nonlinear heat transfer problems

Hyperbolic representations of PU(1,n)

Conservation of Forces and Total Work at the Interface Using the Internodes Method