A numerical integration scheme for special quadrilateral finite elements for the Helmholtz equation

“…To this end, we use the semi-analytical quadratures developed by Bettess et al [36,37]. In these rules, the non-oscillatory term of the integrands is approximated by a set of n lp Lagrangian polynomials,…”

Section: Remarkmentioning

confidence: 99%

“…The key point in the rules proposed by Bettess et al [36,37] is to perform an analytical integration for these integration weights.…”

Section: Remarkmentioning

confidence: 99%

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Numerical modeling of undersea acoustics using a partition of unity method with plane waves enrichment

2016

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A new 2D numerical model to predict the underwater acoustic propagation is obtained by exploring the potential of the Partition of Unity Method (PUM) enriched with plane waves. The aim of the work is to obtain sound pressure level distributions when multiple operational noise sources are present, in order to assess the acoustic impact over the marine fauna. The model takes advantage of the suitability of the PUM for solving the Helmholtz equation, especially for the practical case of large domains and medium frequencies. The seawater acoustic absorption and the acoustic reflectance of the sea surface and sea bottom are explicitly considered, and Perfectly Matched Layers (PML) are placed at the lateral artificial boundaries to avoid spurious reflexions. The model includes semi-analytical integration rules which are adapted to highly oscillatory integrands with the aim of reducing the computational cost of the integration step. In addition, we develop a novel strategy to mitigate the ill-conditioning of the elemental and global system matrices. Specifically, we compute a low-rank approximation of the local space of solutions, which in turn reduces the number of degrees of freedom, the CPU time and the memory footprint. Numerical examples are presented to illustrate the capabilities of the model and to assess its accuracy.

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“…The values for Ei(x) obtained from the two codes were checked against each other and against values evaluated to arbitrary precision by Maple. Because 12 separate special cases arise, details are given elsewhere [30].…”

Section: Quadrilateral Finite Elementsmentioning

confidence: 99%

A numerical integration scheme for special finite elements for the Helmholtz equation

Bettess

Shirron

Laghrouche

et al. 2002

Numerical Meth Engineering

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SUMMARYThe theory for integrating the element matrices for rectangular, triangular and quadrilateral ÿnite elements for the solution of the Helmholtz equation for very short waves is presented. A numerical integration scheme is developed. Samples of Maple and Fortran code for the evaluation of integration absciss and weights are made available. The results are compared with those obtained using large numbers of Gauss-Legendre integration points for a range of testing wave problems. The results demonstrate that the method gives correct results, which gives conÿdence in the procedures, and show that large savings in computation time can be achieved.

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A numerical integration scheme for special quadrilateral finite elements for the Helmholtz equation

Cited by 15 publications

References 15 publications

Partition of unity method for Helmholtz equation: q-convergence for plane-wave and wave-band local bases

Partition of unity method for Helmholtz equation: q-convergence for plane-wave and wave-band local bases

Numerical modeling of undersea acoustics using a partition of unity method with plane waves enrichment

A numerical integration scheme for special finite elements for the Helmholtz equation

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