It is known that the exact analytic solutions of wave scattering by a circular cylinder, when they exist, are not in a closed form but in infinite series which converge slowly for high frequency waves. In this paper, a fast numerical solution is presented for the scattering problem in which the boundary integral equations, reformulated from the Helmholtz equation, are solved using a Fourier spectral method. It is shown that the special geometry considered here allows the implementation of the spectral method to be simple and very efficient. The present method differs from previous approaches in that the singularities of the integral kernels are removed and dealt with accurately. The proposed method preserves the spectral accuracy and is sho...
International audienceThe Lippmann–Schwinger integral equation describes the scattering of acoustic ...
The original work of this thesis consists of three parts: Part A. Acoustic scattering over 3-D bound...
Numerical techniques are suggested in this paper, in order to improve the computational efficiency o...
It is known that the exact analytic solutions of wave scattering by a circular cylinder, when they e...
It is known that the exact analytic solutions of wave scattering by a circular cylinder, when they e...
It is known that the exact analytic solutions of wave scattering by a circular cylin-der, when they ...
In this paper, we present a new numerical formulation of solving the boundary integral equations ref...
AbstractClassic scattering from objects of arbitrary shape must generally be treated by numerical me...
In this article we review recent progress on the design, analysis and implementation of numerical-as...
AbstractA Neumann boundary value problem of the Helmholtz equation in the exterior circular domain i...
Scattering of acoustic waves from an inhomogeneous medium can be described by the Lippmann-Schwinger...
summary:The problem of a solving a class of hypersingular integral equations over the boundary of a ...
AbstractWe describe a fully discrete method for the numerical solution of the hypersingular integral...
In this article we describe recent progress on the design, analysis and implementation of hybrid num...
This paper employs the unified transform to present a boundary-based spectral collocation method sui...
International audienceThe Lippmann–Schwinger integral equation describes the scattering of acoustic ...
The original work of this thesis consists of three parts: Part A. Acoustic scattering over 3-D bound...
Numerical techniques are suggested in this paper, in order to improve the computational efficiency o...
It is known that the exact analytic solutions of wave scattering by a circular cylinder, when they e...
It is known that the exact analytic solutions of wave scattering by a circular cylinder, when they e...
It is known that the exact analytic solutions of wave scattering by a circular cylin-der, when they ...
In this paper, we present a new numerical formulation of solving the boundary integral equations ref...
AbstractClassic scattering from objects of arbitrary shape must generally be treated by numerical me...
In this article we review recent progress on the design, analysis and implementation of numerical-as...
AbstractA Neumann boundary value problem of the Helmholtz equation in the exterior circular domain i...
Scattering of acoustic waves from an inhomogeneous medium can be described by the Lippmann-Schwinger...
summary:The problem of a solving a class of hypersingular integral equations over the boundary of a ...
AbstractWe describe a fully discrete method for the numerical solution of the hypersingular integral...
In this article we describe recent progress on the design, analysis and implementation of hybrid num...
This paper employs the unified transform to present a boundary-based spectral collocation method sui...
International audienceThe Lippmann–Schwinger integral equation describes the scattering of acoustic ...
The original work of this thesis consists of three parts: Part A. Acoustic scattering over 3-D bound...
Numerical techniques are suggested in this paper, in order to improve the computational efficiency o...