Computational aeroacoustics requires efficient, high-resolution simulation tools. And for smooth problems, this is best accomplished with very high order in space and time methods on small stencils. But the complexity of highly accurate numerical methods can inhibit their practical application, especially in irregular geometries. This complexity is reduced by using a special form of Hermite divided-difference spatial interpolation on Cartesian grids, and a Cauchy-Kowalewslci recursion procedure for time advancement. In addition, a stencil constraint tree reduces the complexity of interpolating grid points that are located near wall boundaries. These procedures are used to automatically develop and implement very high order methods (>15) for...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroa-coustic propagati...
AbstractThe simulation of sound generating flows in complex geometries requires accurate numerical m...
The simulation of aeroacoustic problems sets demanding requirements on numerical methods, particular...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
The linearized Euler equations (LEEs) solver for aeroacoustic problems has been developed on block-s...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
Computational aeroacoustics algorithms based on low-dispersion and low-dissipation nite-dierence and...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
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...
A set of explicit finite difference schemes with large stencil was optimized to obtain maximum resol...
A finite volume-based high-order scheme with optimized dispersion and dissipation characteristics in...
AbstractThe simulation of sound generating flows in complex geometries requires accurate numerical m...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroa-coustic propagati...
AbstractThe simulation of sound generating flows in complex geometries requires accurate numerical m...
The simulation of aeroacoustic problems sets demanding requirements on numerical methods, particular...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
The linearized Euler equations (LEEs) solver for aeroacoustic problems has been developed on block-s...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroacoustic propagatio...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
Computational aeroacoustics algorithms based on low-dispersion and low-dissipation nite-dierence and...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
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...
A set of explicit finite difference schemes with large stencil was optimized to obtain maximum resol...
A finite volume-based high-order scheme with optimized dispersion and dissipation characteristics in...
AbstractThe simulation of sound generating flows in complex geometries requires accurate numerical m...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
A Discontinuous Galerkin Method is applied to unstructured grids to simulate aeroa-coustic propagati...
AbstractThe simulation of sound generating flows in complex geometries requires accurate numerical m...
The simulation of aeroacoustic problems sets demanding requirements on numerical methods, particular...