高频剂量学中复合眼模型与提取眼模型的数值比较

Q3 Engineering

International Journal for Engineering Modelling Pub Date : 2018-09-07 DOI:10.31534/engmod.2018.1-2

M. Cvetković, H. Dodig, D. Poljak

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引用次数: 4

摘要

本文比较了两个详细的人眼模型中感应电场、比吸收率（SAR）和相应温度升高的数值结果。第一个模型以放置在自由空间中的人眼为特征，而第二个模型将眼睛模型结合在从磁共振成像（MRI）扫描获得的逼真头部模型中。电磁模型基于生物组织的混合FEM/BEM公式，而热剂量测定模型基于通过使用有限元方法求解的生物热方程。初步分析显示，在两个模型中获得的诱导电场沿瞳孔轴的分布相似，然而，SAR和相关温度升高的数值结果显示，两个模型之间存在差异，这可归因于复眼模型中角膜和巩膜区域的诱导场值较高。

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Numerical comparison of compound and extracted eye models for high frequency dosimetry

This paper compares the numerical results for the induced electric field, the specific absorption rate (SAR), and the corresponding temperature increase in two detailed models of the human eye. The first model features the human eye placed in the free space, while the second one incorporates the eye model in the realistic head model obtained from the magnetic resonance imaging (MRI) scans. The electromagnetic model is based on the hybrid FEM/BEM formulation for the biological tissue, whereas the thermal dosimetry model is based on the bioheat equation solved by using the finite element method. The preliminary analysis showed a similar distribution of the induced electric field along the pupillary axis obtained in both models, however, the numerical results for the SAR and related temperature increase showed discrepancy between the two models, which can be attributed to the high values of induced field in the corneal and scleral regions obtained in the compound eye model.

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来源期刊

International Journal for Engineering Modelling Engineering-Mechanical Engineering

CiteScore

0.90

自引率

0.00%

发文量

期刊介绍： Engineering Modelling is a refereed international journal providing an up-to-date reference for the engineers and researchers engaged in computer aided analysis, design and research in the fields of computational mechanics, numerical methods, software develop-ment and engineering modelling.