Title of article
THE ANALYSIS OF 3D MODEL CHARACTERIZATION AND ITS IMPACT ON THE ACCURACY OF SCATTERING CALCULATIONS
Author/Authors
By A. D. Hellicar، نويسنده , , J. S. Kot، نويسنده , , G. C. James، نويسنده , , and G. K. Cambrell ، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2010
Pages
21
From page
125
To page
145
Abstract
When employing computational methods for solving problems in electromagnetic scattering the resulting solutions are strongly determined by the geometry of the scatterer. Careful consideration must therefore be given to the computational geometry used in representing the scatterer. Here we show that the solution for a problem as simple as plane wave scattering off a PEC sphere is sensitive to the computational geometry used to represent the sphere. We show this by implementing 4 higher-order computational geometry schemes over 3 different tessellations resulting in 45 different representations of the sphere. Two methods for solving the scattering problem are implemented: the boundary-element method (BEM) based on the MFIE, and the physical optics (PO) method. Results are compared and insights are obtained into the performance of the various schemes to model surfaces accurately and efficiently. The comparison of the different schemes takes into consideration the required computational resources in implementing the schemes. Some unexpected results are discovered and explanations given.
Journal title
Progress In Electromagnetics Research
Serial Year
2010
Journal title
Progress In Electromagnetics Research
Record number
1052496
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