We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces in three–dimensional space. This algorithm evaluates scattered fields through fast, high–order, accurate solution of the corresponding boundary integral equation. The high–order accuracy of our solver is achieved through use of partitions of unityI together with analytical resolution of kernel singularities. The acceleration, in turn, results from use of high–order equivalent sourceapproximations, which allow for fast evaluation of non–adjacent interactions by means of the three–dimensional fast Fourier transform (FFT). Our acceleration scheme has dramatically lower memory requirements and yields much higher accuracy than existing FFT–accele...
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...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
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 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...
This paper presents a high-order accelerated algorithm for the solution of the integral-equation for...
In this paper, we introduce a new fast, higher-order solver for scattering by inhomogeneous media in...
We review a new set of algorithms and methodologies for the numerical solution of problems of scatte...
Abstract. We describe an accelerated direct solver for the integral equations which model acoustic s...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
We consider the approximation of some highly oscillatory weakly singular surface integrals, arising ...
Cette thèse porte sur le problème de la diffration acoustique par un obstacle et sa résolution numér...
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...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
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 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...
This paper presents a high-order accelerated algorithm for the solution of the integral-equation for...
In this paper, we introduce a new fast, higher-order solver for scattering by inhomogeneous media in...
We review a new set of algorithms and methodologies for the numerical solution of problems of scatte...
Abstract. We describe an accelerated direct solver for the integral equations which model acoustic s...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
We consider the approximation of some highly oscillatory weakly singular surface integrals, arising ...
Cette thèse porte sur le problème de la diffration acoustique par un obstacle et sa résolution numér...
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...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...