In this short note alternative time domain boundary integral equations (TDBIE) for the scalar wave equation are formulated on a surface enclosing a volume. The technique used follows the traditional approach of subtracting and adding back relevant Taylor expansion terms of the field variable, but does not restrict this to the surface patches that contain the singularity only. From the divergence-free property of the added-back integrands, together with an application of Stokes\u27 theorem, it follows that the added-back terms can be evaluated using line integrals defined on a cut between the surface and a sphere whose radius increases with time. Moreover, after a certain time, the line integrals may be evaluated directly. The results provid...
This paper introduces an effective way to equip the standard finite element method (FEM) for the sol...
Abstract: We propose artificial boundary conditions for the wave equation considered outsi...
AbstractLinear hyperbolic partial differential equations in a homogeneous medium, e.g., the wave equ...
In this short note alternative time domain boundary integral equations (TDBIE) for the scalar wave e...
We present a new approach for boundary integral equations for the wave equation with zero initial co...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX94110 / BLDSC - British Library Do...
To compute the transient solution of free-surface flow problems in two and three dimensions boundary...
A modied version of an exact Non-re ecting Boundary Condition (NRBC) rst derived by Grote and Kelle...
The present note deals with hyperbolic problems involving 3D scalar fields (scalar wave problems) mo...
We present a new method for solving the wave equation implic-itly. Our approach is to discretize the...
Boundary integral equation techniques are useful in thenumerical simulation of scattering problems f...
This paper is concerned with the numerical solution of the wave equation in an unbounded domain. Pro...
In this work the direct boundary element method is applied to solve transient wave propagation probl...
International audienceThis work presents a time-truncation scheme, based on the Lagrange interpolati...
Boundary integral equations (BIEs) are used to model surface waves in a wave tank. Assuming an ideal...
This paper introduces an effective way to equip the standard finite element method (FEM) for the sol...
Abstract: We propose artificial boundary conditions for the wave equation considered outsi...
AbstractLinear hyperbolic partial differential equations in a homogeneous medium, e.g., the wave equ...
In this short note alternative time domain boundary integral equations (TDBIE) for the scalar wave e...
We present a new approach for boundary integral equations for the wave equation with zero initial co...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX94110 / BLDSC - British Library Do...
To compute the transient solution of free-surface flow problems in two and three dimensions boundary...
A modied version of an exact Non-re ecting Boundary Condition (NRBC) rst derived by Grote and Kelle...
The present note deals with hyperbolic problems involving 3D scalar fields (scalar wave problems) mo...
We present a new method for solving the wave equation implic-itly. Our approach is to discretize the...
Boundary integral equation techniques are useful in thenumerical simulation of scattering problems f...
This paper is concerned with the numerical solution of the wave equation in an unbounded domain. Pro...
In this work the direct boundary element method is applied to solve transient wave propagation probl...
International audienceThis work presents a time-truncation scheme, based on the Lagrange interpolati...
Boundary integral equations (BIEs) are used to model surface waves in a wave tank. Assuming an ideal...
This paper introduces an effective way to equip the standard finite element method (FEM) for the sol...
Abstract: We propose artificial boundary conditions for the wave equation considered outsi...
AbstractLinear hyperbolic partial differential equations in a homogeneous medium, e.g., the wave equ...