A general framework for discontinuous Galerkin methods in the frequency domain with numerical flux is presented. The main feature of the method is the use of plane waves instead of polynomials to approximate the solution in each element. The method is formulated for a general system of linear hyperbolic equations and is applied to problems of aeroacoustic propagation by solving the two-dimensional linearized Euler equations. It is found that the method requires only a small number of elements per wavelength to obtain accurate solutions and that it is more efficient than high-order DRP schemes. In addition, the conditioning of the method is found to be high but not critical in practice. It is shown that the Ultra-Weak Variational Formulation...
We are concerned with a finite element approximation for time-harmonic wave propagation governed by ...
Several numerical methods using non-polynomial interpolation have been proposed for wave propagation...
International audienceA general Discontinuous Calerkin framework is introduced for symmetric systems...
The practical motivation of this work is the numerical simulation of noise radiation from turbofan e...
Introduction Computational methods for aeroacoustics must possess accuracy properties that exceed th...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
We are concerned with a finite element approximation for time-harmonic wave propagation governed by...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
An efficient discontinuous Galerkin formulation is applied to the solution of the linearized Euler e...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
Several special finite element methods have been proposed to solve Helmholtz problems in the mid-fre...
This paper deals with the high-order discontinuous Galerkin (DG) method for solving wave propagation...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroa-coustic propagati...
Standard low order Lagrangian finite element discretization of boundary value problems for the Helmh...
Airframe noise of complex geometries, like e.g. high-lift airfoil configurations, may conveniently b...
We are concerned with a finite element approximation for time-harmonic wave propagation governed by ...
Several numerical methods using non-polynomial interpolation have been proposed for wave propagation...
International audienceA general Discontinuous Calerkin framework is introduced for symmetric systems...
The practical motivation of this work is the numerical simulation of noise radiation from turbofan e...
Introduction Computational methods for aeroacoustics must possess accuracy properties that exceed th...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
We are concerned with a finite element approximation for time-harmonic wave propagation governed by...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
An efficient discontinuous Galerkin formulation is applied to the solution of the linearized Euler e...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
Several special finite element methods have been proposed to solve Helmholtz problems in the mid-fre...
This paper deals with the high-order discontinuous Galerkin (DG) method for solving wave propagation...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroa-coustic propagati...
Standard low order Lagrangian finite element discretization of boundary value problems for the Helmh...
Airframe noise of complex geometries, like e.g. high-lift airfoil configurations, may conveniently b...
We are concerned with a finite element approximation for time-harmonic wave propagation governed by ...
Several numerical methods using non-polynomial interpolation have been proposed for wave propagation...
International audienceA general Discontinuous Calerkin framework is introduced for symmetric systems...