Viel J F, Clerc S, Barrera C, Rymzhanova R, Moissonnier M, Hours M, Cardis E
CNRS Chrono-Environment N 6249, University of Franche-Comté, Besançon, France.
Occup Environ Med. 2009 Aug;66(8):550-6. doi: 10.1136/oem.2008.044180. Epub 2009 Mar 30.
Both the public perceptions, and most published epidemiologic studies, rely on the assumption that the distance of a particular residence from a base station or a broadcast transmitter is an appropriate surrogate for exposure to radiofrequency fields, although complex propagation characteristics affect the beams from antennas. The main goal of this study was to characterise the distribution of residential exposure from antennas using personal exposure meters.
A total of 200 randomly selected people were enrolled. Each participant was supplied with a personal exposure meter for 24 h measurements, and kept a time-location-activity diary. Two exposure metrics for each radiofrequency were then calculated: the proportion of measurements above the detection limit (0.05 V/m), and the maximum electric field strength. Residential address was geocoded, and distance from each antenna was calculated.
Much of the time, the recorded field strength was below the detection level (0.05 V/m), the FM band standing apart with a proportion above the detection threshold of 12.3%. The maximum electric field strength was always lower than 1.5 V/m. Exposure to GSM and DCS waves peaked around 280 m and 1000 m from the antennas. A downward trend was found within a 10 km range for FM. Conversely, UMTS, TV 3, and TV 4&5 signals did not vary with distance.
Despite numerous limiting factors entailing a high variability in radiofrequency exposure assessment, but owing to a sound statistical technique, we found that exposures from GSM and DCS base stations increase with distance in the near source zone, to a maximum where the main beam intersects the ground. We believe these results will contribute to the ongoing public debate over the location of base stations and their associated emissions.
公众认知以及大多数已发表的流行病学研究均假定,特定住所与基站或广播发射机之间的距离可适当替代射频场暴露情况,尽管复杂的传播特性会影响天线波束。本研究的主要目的是使用个人暴露计来描述来自天线的住宅暴露分布情况。
总共随机选取了200人参与研究。为每位参与者提供一台个人暴露计进行24小时测量,并要求其记录时间-地点-活动日志。然后计算每个射频的两个暴露指标:测量值高于检测限(0.05 V/m)的比例以及最大电场强度。对居住地址进行地理编码,并计算与每个天线的距离。
大部分时间里,记录的场强低于检测水平(0.05 V/m),调频波段除外,其高于检测阈值的比例为12.3%。最大电场强度始终低于1.5 V/m。GSM和DCS波的暴露在距离天线约280米和1000米处达到峰值。调频波段在10公里范围内呈下降趋势。相反,UMTS、电视3以及电视4和5信号的强度不随距离变化。
尽管存在众多限制因素导致射频暴露评估存在高度变异性,但由于采用了合理的统计技术,我们发现GSM和DCS基站的暴露在近源区域随距离增加,在主波束与地面相交处达到最大值。我们相信这些结果将有助于正在进行的关于基站位置及其相关辐射的公众辩论。
