Title :
A wave propagation model based on Monte-Carlo particle-tracing
Author :
Viennot, G. ; Carsenat, D. ; Merillou, S. ; Vaudon, P. ; Monediere, T.
Author_Institution :
XLIM, Limoges, France
Abstract :
This article describes a new wave propagation model based on Monte-Carlo particle-tracing. This model relies on Monte-Carlo integration and Huygens currents radiating. The particles used to compute the field permit to consider the interferences. This model includes the diffraction of the surface without edge computation. The implementation of this propagation model is based on a image synthesis renderer.We study the results of this model in far field situation with perfectly conducting shapes, by comparing results with a classical MoM Method.
Keywords :
Monte Carlo methods; diffraction; electromagnetic interference; electromagnetic wave diffraction; electromagnetic wave propagation; image processing; method of moments; ray tracing; Huygens currents radiation; Monte Carlo integration; Monte Carlo particle tracing; classical MoM Method; edge computation; far field situation; image synthesis rendering; surface diffraction; wave propagation model; Computational modeling; Electromagnetic scattering; Electromagnetics; Image generation; Monte Carlo methods; Optical surface waves; Surface impedance; Equivalence Theorem; Monte-Carlo; stochastic ray-tracing; wave propagation;
Conference_Titel :
Antenna Technology and Applied Electromagnetics (ANTEM), 2012 15th International Symposium on
Conference_Location :
Toulouse
Print_ISBN :
978-1-4673-0290-6
DOI :
10.1109/ANTEM.2012.6262421
