Hybrid numerical-asymptotic approximation for high-frequency scattering by penetrable convex polygons

Autor:	David P. Hewett, Stephen Langdon, Samuel P. Groth
Rok vydání:	2013
Předmět:	symbols.namesake Geometrical optics Applied Mathematics Helmholtz free energy Mathematical analysis symbols Regular polygon Piecewise Degrees of freedom (statistics) Boundary (topology) Basis function Boundary element method Mathematics
Zdroj:	IMA Journal of Applied Mathematics. 80:324-353
ISSN:	1464-3634 0272-4960
Popis:	We consider time-harmonic scattering by penetrable convex polygons, a Helmholtz transmission problem. Standard numerical schemes based on piecewise polynomial approximation spaces become impractical at high frequencies due to the requirement that the number of degrees of freedom in any approximation must grow at least linearly with respect to frequency in order to represent the oscillatory solution. High frequency asymptotic methods on the other hand are non-convergent and may be insufficiently accurate at low to medium frequencies. Here, we design a hybrid numerical-asymptotic boundary element approximation space that combines the best features of both approaches. Specifically, we compute the classical geometrical optics solution using a beam tracing algorithm, and then we approximate the remaining diffracted field using an approximation space enriched with carefully chosen oscillatory basis functions. We demonstrate via numerical simulations that this approach permits the accurate and efficient representation of the boundary solution and the far field pattern.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::2c1bd61ba5729ce3e26ab1e30c9ed41b https://doi.org/10.1093/imamat/hxt040 Zobrazit plný text záznamu