J.W. Verheij scite author profile

Effective use of the Fourier series boundary element method ͑FBEM͒ for everyday applications is hindered by the significant numerical problems that have to be overcome for its implementation. In the FBEM formulation for acoustics, some integrals over the angle of revolution arise, which need to be calculated for every Fourier term. These integrals were formerly treated for each Fourier term separately. In this paper a new method is proposed to calculate these integrals using fast Fourier transform techniques. The advantage of this integration method is that the integrals are simultaneously computed for all Fourier terms in the boundary element formulation. The improved efficiency of the method compared to a Gaussian quadrature based integration algorithm is illustrated by some example calculations. The proposed method is not only usable for acoustic problems in particular, but for Fourier BEM in general.

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Inverse and Reciprocity Methods for Machinery Noise Source Characterization and Sound Path Quantification Part 2: Transmission Paths

Verheij¹

1997

IJAV

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A pseudo-forces methodology to be used in characterization of structure-borne sound sources

Janssens

Verheij

2000

Applied Acoustics

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Inverse and Reciprocity Methods for Machinery Noise Source Characterization and Sound Path Quantification Part 1: Sources

Verheij¹

1997

IJAV

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J.W. Verheij

Cross spectral density methods for measuring structure borne power flow on beams and pipes

An improved acoustic Fourier boundary element method formulation using fast Fourier transform integration

Inverse and Reciprocity Methods for Machinery Noise Source Characterization and Sound Path Quantification Part 2: Transmission Paths

A pseudo-forces methodology to be used in characterization of structure-borne sound sources

Inverse and Reciprocity Methods for Machinery Noise Source Characterization and Sound Path Quantification Part 1: Sources

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