Lehmann Hugo, Pollara Laurent, Spichtig Sonja, Kühn Sven, Wolf Martin
Swisscom Ltd., Innovation Competence Center, Bern, Switzerland.
Bioelectromagnetics. 2012 Feb;33(2):124-33. doi: 10.1002/bem.20688. Epub 2011 Aug 12.
A head exposure setup for efficient and precisely defined exposure of human subjects equipped with a near-infrared imaging (NIRI) sensor is presented. In a partially shielded anechoic chamber the subjects were exposed to Universal Mobile Telecommunications System (UMTS)-like electromagnetic fields (EMF) by using a patch antenna at a distance of 4 cm from the head. The non-contact design of the exposure setup enabled NIRI sensors to easily attach to the head. Moreover, different regions of the head were chosen for localised exposure and simultaneous NIRI investigation. The control software enabled the simple adaptation of the test parameters during exploratory testing as well as the performance of controlled, randomised, crossover and double-blind provocation studies. Four different signals with a carrier frequency of 1900 MHz were chosen for the exposure: a simple continuous wave signal and three different UMTS signals. Furthermore, three exposure doses were available: sham, low (spatial peak specific absorption rate (SAR) = 0.18 W/kg averaged over 10 g) and high (spatial peak SAR = 1.8 W/kg averaged over 10 g). The SAR assessment was performed by measurement and simulation. Direct comparison of measurement and numerical results showed good agreement in terms of spatial peak SAR and SAR distribution. The variability analysis of the spatial peak SAR over 10 g was assessed by numerical simulations. Maximal deviations of -22% and +32% from the nominal situation were observed. Compared to other exposure setups, the present setup allows for low exposure uncertainty, combined with high SAR efficiency, easy access for the NIRI sensor and minimal impairment of test subjects.
本文介绍了一种用于人体受试者高效且精确定义暴露的头部暴露装置,该装置配备了近红外成像(NIRI)传感器。在一个部分屏蔽的消声室内,通过使用一个距头部4厘米的贴片天线,使受试者暴露于类似通用移动通信系统(UMTS)的电磁场(EMF)中。暴露装置的非接触式设计使NIRI传感器能够轻松附着在头部。此外,选择头部的不同区域进行局部暴露和同步NIRI研究。控制软件能够在探索性测试期间轻松调整测试参数,以及进行受控、随机、交叉和双盲激发研究。选择了四种载波频率为1900 MHz的不同信号进行暴露:一个简单的连续波信号和三种不同的UMTS信号。此外,有三种暴露剂量可供选择:假暴露、低剂量(10克平均空间峰值比吸收率(SAR)=0.18 W/kg)和高剂量(10克平均空间峰值SAR =1.