Modeling High-Frequency Backscattering from a Mesh of Curved Surfaces Using Kirchhoff Approximation

GONZALEZ, J. D.; BLANC, S.; LAVIA, E. F.

Journal of Theoretical and Computational Acoustics

World Scientific Publishing

Año: 2018

2591-7285

The Kirchhoff approximation (K-A) to calculate the acoustic backscattering of a complex structure can be evaluated using a discretized version of its surface (i.e. a mesh). From the computational viewpoint, the most handy approach is the one based on flat facets. However, in the high frequency range, where the K-A provides good agreement and is therefore applicable, it requires a mesh withsuch a large number of facets that it turns impractical. To avoid these difficulties a mesh of curved triangles can be used to model the scatterer?s complex structure. Previous computational implementations reported in the literature did not accomplish satisfactory results for high frequency. Inthis work we propose a numerical model based upon an iterative integration using Gauss-Legendre rules. The model was validated against exact solutions and led us to achieve adequate results in the high-frequency range.