We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces in three-dimensional space. This algorithm evaluates the scattered field, through fast, high-order solution of the boundary integral equation. The high-order of the solver is achieved through use of partition of unity together with analytical resolution of kernel singularities. The acceleration in turn, results from a novel approach which, based on high-order "two-face" equivalent source approximations, reduces the evaluation of far interactions to evaluation of 3-D FFTs. We demonstrate its performance with a variety of numerical results. In particular, we show that the present algorithm can evaluate accurately in a personal computer, scatte...
In this paper, we introduce a new fast, higher-order solver for scattering by inhomogeneous media in...
A new high-order integral algorithm for the solution of scattering problems by heterogeneous bodies ...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present a new algorithm for the numerical solution of problems of acoustic scatter-ing by surface...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We review a set of algorithms and methodologies developed recently for the numerical solution of pro...
Abstract. We describe an accelerated direct solver for the integral equations which model acoustic s...
This paper presents a high-order accelerated algorithm for the solution of the integral-equation for...
We present a new set of high-order algorithms and methodologies for the numerical solution of proble...
We present a new set of algorithms and methodologies for the numerical solution of problems of scatt...
AbstractWe present an accurate method of O(1)-complexity with respect to frequency (i.e., a method t...
We present an accelerated and hardware parallelized integral-equation solver for the problem of acou...
In this paper we present a convergence analysis for the Nyström method proposed in [J Comput Phys 1...
In this paper, we introduce a new fast, higher-order solver for scattering by inhomogeneous media in...
A new high-order integral algorithm for the solution of scattering problems by heterogeneous bodies ...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present a new algorithm for the numerical solution of problems of acoustic scatter-ing by surface...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We review a set of algorithms and methodologies developed recently for the numerical solution of pro...
Abstract. We describe an accelerated direct solver for the integral equations which model acoustic s...
This paper presents a high-order accelerated algorithm for the solution of the integral-equation for...
We present a new set of high-order algorithms and methodologies for the numerical solution of proble...
We present a new set of algorithms and methodologies for the numerical solution of problems of scatt...
AbstractWe present an accurate method of O(1)-complexity with respect to frequency (i.e., a method t...
We present an accelerated and hardware parallelized integral-equation solver for the problem of acou...
In this paper we present a convergence analysis for the Nyström method proposed in [J Comput Phys 1...
In this paper, we introduce a new fast, higher-order solver for scattering by inhomogeneous media in...
A new high-order integral algorithm for the solution of scattering problems by heterogeneous bodies ...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...