This paper introduces a high-order-accurate strategy for integration of singular kernels and edge-singular integral densities that appear in the context of boundary integral equation formulations for the problem of acoustic scattering. In particular, the proposed method is designed for use in conjunction with geometry descriptions given by a set of arbitrary non-overlapping logically-quadrilateral patches—which makes the algorithm particularly well suited for computer-aided design (CAD) geometries. Fejér's first quadrature rule is incorporated in the algorithm, to provide a spectrally accurate method for evaluation of contributions from far integration regions, while highly-accurate precomputations of singular and near-singular integrals ov...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
International audienceThis paper introduce planewave density interpolation methods for the regulariz...
We propose a method for efficient evaluation of surface integrals arising in boundary elementmethods...
This paper introduces a high-order-accurate strategy for integration of singular kernels and edge-si...
AbstractWe present an accurate method of O(1)-complexity with respect to frequency (i.e., a method t...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
In this paper we present a convergence analysis for the Nyström method proposed in [J Comput Phys 1...
Based on the perfectly matched layer (PML) technique, this paper develops a high-accuracy boundary i...
We present a new set of high-order algorithms and methodologies for the numerical solution of proble...
This paper presents novel methodologies for the numerical simulation of scattering of elastic waves ...
We propose a method for efficient evaluation of surface integrals arising in boundary element metho...
We consider the problem of evaluating the scattering of TE polarized electromagnetic waves by two-di...
In this paper we use an enriched approximation space for the efficient and accurate solution of the ...
We present a novel methodology for the numerical solution of problems of diffraction by infinitely t...
Paper presented at the 3rd Strathmore International Mathematics Conference (SIMC 2015), 3 - 7 August...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
International audienceThis paper introduce planewave density interpolation methods for the regulariz...
We propose a method for efficient evaluation of surface integrals arising in boundary elementmethods...
This paper introduces a high-order-accurate strategy for integration of singular kernels and edge-si...
AbstractWe present an accurate method of O(1)-complexity with respect to frequency (i.e., a method t...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
In this paper we present a convergence analysis for the Nyström method proposed in [J Comput Phys 1...
Based on the perfectly matched layer (PML) technique, this paper develops a high-accuracy boundary i...
We present a new set of high-order algorithms and methodologies for the numerical solution of proble...
This paper presents novel methodologies for the numerical simulation of scattering of elastic waves ...
We propose a method for efficient evaluation of surface integrals arising in boundary element metho...
We consider the problem of evaluating the scattering of TE polarized electromagnetic waves by two-di...
In this paper we use an enriched approximation space for the efficient and accurate solution of the ...
We present a novel methodology for the numerical solution of problems of diffraction by infinitely t...
Paper presented at the 3rd Strathmore International Mathematics Conference (SIMC 2015), 3 - 7 August...
We present an accurate method of O(1)-complexity with respect to frequency (i.e., a method that, to ...
International audienceThis paper introduce planewave density interpolation methods for the regulariz...
We propose a method for efficient evaluation of surface integrals arising in boundary elementmethods...