AbstractOur fundamental solution method gives an analytic representation of the approximate solution for the reduced wave problem in the exterior region of a disc. The asymptotic behavior of this representation yields an approximate formula for the scattering amplitude. An error estimate for this formula is given. We add two numerical tests: the numerical estimate of errors; and profiles of scattering cross sections and the far-field coefficient. Both tests include cases of high wave numbers
We have developed and studied hybrid asymptotic-numerical methods to compute the acoustic field scat...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN038277 / BLDSC - British Library D...
AbstractWe derive a hypersingular integral equation, which is equivalent to the scattering problem. ...
AbstractOur fundamental solution method gives an analytic representation of the approximate solution...
AbstractThis paper concerns a fundamental solution method (FSM, in abbreviation) applied to a reduce...
Wave scattering is the phenomenon in which a wave field interacts with physical objects. An incoming...
AbstractIn this paper, we present a mathematical study of the method of fundamental solutions (MFS) ...
AbstractClassic scattering from objects of arbitrary shape must generally be treated by numerical me...
AbstractThis paper concerns error estimates for an approximation method for solving the Dirichlet bo...
A numerical technique for solving scattering problems is presented. It is based on a boundary integ...
International audienceWe study the simplest explicit formulas for approximate finding the complex sc...
Scattering is a physical phenomenon which can be modeled with a boundary value problem for a partial...
Over several decades, electromagnetic scattering from an infinitely thin perfectly conducting circul...
This paper proposes applications of the method of fundamental solutions (MFS) to exterior acoustic r...
Abstract: The problem of scattering of electromagnetic Wave by an obstracle consists in th...
We have developed and studied hybrid asymptotic-numerical methods to compute the acoustic field scat...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN038277 / BLDSC - British Library D...
AbstractWe derive a hypersingular integral equation, which is equivalent to the scattering problem. ...
AbstractOur fundamental solution method gives an analytic representation of the approximate solution...
AbstractThis paper concerns a fundamental solution method (FSM, in abbreviation) applied to a reduce...
Wave scattering is the phenomenon in which a wave field interacts with physical objects. An incoming...
AbstractIn this paper, we present a mathematical study of the method of fundamental solutions (MFS) ...
AbstractClassic scattering from objects of arbitrary shape must generally be treated by numerical me...
AbstractThis paper concerns error estimates for an approximation method for solving the Dirichlet bo...
A numerical technique for solving scattering problems is presented. It is based on a boundary integ...
International audienceWe study the simplest explicit formulas for approximate finding the complex sc...
Scattering is a physical phenomenon which can be modeled with a boundary value problem for a partial...
Over several decades, electromagnetic scattering from an infinitely thin perfectly conducting circul...
This paper proposes applications of the method of fundamental solutions (MFS) to exterior acoustic r...
Abstract: The problem of scattering of electromagnetic Wave by an obstracle consists in th...
We have developed and studied hybrid asymptotic-numerical methods to compute the acoustic field scat...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN038277 / BLDSC - British Library D...
AbstractWe derive a hypersingular integral equation, which is equivalent to the scattering problem. ...