Open AccessMACROMODEL BASED DG-FDTD FOR CALCULATING LOCAL DOSIMETRY IN A VARIABLE AND HIGHLY MULTISCALE PROBLEM
Author(s) -
Zakaria Guelilia,
Renaud Loison,
Raphaël Gillard
Publication year - 2014
Publication title -
electromagnetic waves
Language(s) - English
Resource type - Journals
eISSN - 1559-8985
pISSN - 1070-4698
DOI - 10.2528/pier14012704
Subject(s) - finite difference time domain method , electromagnetic field , computer science , grid , variable (mathematics) , human body model , antenna (radio) , dosimetry , field (mathematics) , physics , mathematics , optics , mathematical analysis , artificial intelligence , telecommunications , geometry , medicine , quantum mechanics , pure mathematics , radiology
This paper proposes a method to estimate human exposure to electromagnetic fleld radiation in a variable and highly multiscale problem. The electromagnetic fleld is computed using a combination of two methods: a rigorous time domain and multiscale method, the DG-FDTD (Dual Grid Finite Difierence Time Domain) and a fast substitution model based on the use of transfer functions. The association of these methods is applied to simulate a scenario involving an antenna placed on a vehicle and a human body model located around it. The purpose is to assess the electromagnetic fleld in the left eye of the human body model. It is shown that this combination permits to analyse many difierent positions in a fast and accurate way.
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