Aerts Sam, Deschrijver Dirk, Joseph Wout, Verloock Leen, Goeminne Francis, Martens Luc, Dhaene Tom
Department of Information Technology, Ghent University/iMinds, B-9050 Ghent, Belgium.
Bioelectromagnetics. 2013 May;34(4):300-11. doi: 10.1002/bem.21764. Epub 2013 Jan 11.
Human exposure to background radiofrequency electromagnetic fields (RF-EMF) has been increasing with the introduction of new technologies. There is a definite need for the quantification of RF-EMF exposure but a robust exposure assessment is not yet possible, mainly due to the lack of a fast and efficient measurement procedure. In this article, a new procedure is proposed for accurately mapping the exposure to base station radiation in an outdoor environment based on surrogate modeling and sequential design, an entirely new approach in the domain of dosimetry for human RF exposure. We tested our procedure in an urban area of about 0.04 km(2) for Global System for Mobile Communications (GSM) technology at 900 MHz (GSM900) using a personal exposimeter. Fifty measurement locations were sufficient to obtain a coarse street exposure map, locating regions of high and low exposure; 70 measurement locations were sufficient to characterize the electric field distribution in the area and build an accurate predictive interpolation model. Hence, accurate GSM900 downlink outdoor exposure maps (for use in, e.g., governmental risk communication and epidemiological studies) are developed by combining the proven efficiency of sequential design with the speed of exposimeter measurements and their ease of handling.
随着新技术的引入,人类对背景射频电磁场(RF - EMF)的暴露一直在增加。明确需要对RF - EMF暴露进行量化,但由于缺乏快速有效的测量程序,目前尚无法进行可靠的暴露评估。在本文中,提出了一种新的程序,用于基于代理建模和序贯设计精确绘制室外环境中基站辐射的暴露情况,这是人类RF暴露剂量学领域的一种全新方法。我们使用个人暴露计在面积约为0.04 km²的市区对900 MHz的全球移动通信系统(GSM)技术(GSM900)测试了我们的程序。五十个测量位置足以获得粗略的街道暴露地图,确定高暴露和低暴露区域;七十 个测量位置足以表征该区域的电场分布并建立准确的预测插值模型。因此,通过将序贯设计的成熟效率与暴露计测量的速度及其易于操作相结合,开发出了准确的GSM900下行链路室外暴露地图(例如用于政府风险沟通和流行病学研究)。
