Study of Body Position Dependence on Human Exposure in the 2.4 GHz Band

2019 International Symposium on Electromagnetic Compatibility - EMC EUROPE Pub Date : 2019-09-01 DOI:10.1109/EMCEurope.2019.8872017

S. D. Miguel-Bilbao, J. Blas, J. Karpowicz, V. Ramos

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引用次数: 3

Abstract

Personal exposimeters (PEMs) are small battery-powered and portable devices used to measure electric field levels, and suitable for logging data in dynamic conditions. These devices are worn by the user during the measurement campaigns. The disturbance of the logged levels due to the extreme proximity with the body wearer is known as the body shadow effect (BSE). Several factors influence on the attenuation level of logged data due to the BSE. This work evaluates the influence on PEM measurements, of the wave incoming direction on the body, under dynamic conditions and at the frequency band of 2.4 GHz. By comparing experimental measurements and simulated results, the PEM wearer is modeled theoretically as a shadow angle whose value is determined in terms of maximum P-value. The shadow angle is 13° for frontal incidence, and 9°, for back incidence. The BSE corresponds to a lower loss when the waves come directly from the front of the body than when they come from the back. Therefore, the direction of the incoming waves on the human body is a dependence factor for exposure assessment.

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2.4 GHz波段人体暴露与体位关系的研究

个人暴露仪(PEMs)是一种小型的电池供电的便携式设备，用于测量电场水平，适用于动态条件下的测井数据。这些设备由用户在测量活动中佩戴。由于与身体佩戴者的距离太近，所记录的电平受到干扰，这被称为身体阴影效应(BSE)。由于BSE，有几个因素会影响日志数据的衰减水平。本工作评估了在2.4 GHz频带的动态条件下，波入射方向对人体PEM测量的影响。通过比较实验测量和模拟结果，PEM佩戴者在理论上被建模为一个阴影角，其值由最大p值确定。正面投射的阴影角为13°，背面投射的阴影角为9°。当脑波直接来自身体前部时，疯牛病的损失比从身体后部来的损失要小。因此，入射波对人体的方向是照射评估的依赖因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Symposium on Electromagnetic Compatibility - EMC EUROPE

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