EMF Monitoring—Concepts, Activities, Gaps and Options

Exposure to electromagnetic fields (EMF) is a cause of concern for many people. The topic will likely remain for the foreseeable future on the scientific and political agenda, since emissions continue to change in characteristics and levels due to new infrastructure deployments, smart environments and novel wireless devices. Until now, systematic and coordinated efforts to monitor EMF exposure are rare. Furthermore, virtually nothing is known about personal exposure levels. This lack of knowledge is detrimental for any evidence-based risk, exposure and health policy, management and communication. The main objective of the paper is to review the current state of EMF exposure monitoring activities in Europe, to comment on the scientific challenges and deficiencies, and to describe appropriate strategies and tools for EMF exposure assessment and monitoring to be used to support epidemiological health research and to help policy makers, administrators, industry and consumer representatives to base their decisions and communication activities on facts and data.

[1]  G. Ziegelberger,et al.  ICNIRP STATEMENT ON EMF-EMITTING NEW TECHNOLOGIES , 2008, Health physics.

[2]  Andreas Siegenthaler,et al.  Exposure modeling of high-frequency electromagnetic fields , 2008, Journal of Exposure Science and Environmental Epidemiology.

[3]  Luc Martens,et al.  Between‐country comparison of whole‐body SAR from personal exposure data in Urban areas , 2012, Bioelectromagnetics.

[4]  Georg Neubauer,et al.  A prediction model for personal radio frequency electromagnetic field exposure. , 2009, The Science of the total environment.

[5]  J. Wiart,et al.  Numerical dosimetry dedicated to children RF exposure. , 2011, Progress in biophysics and molecular biology.

[6]  Georg Neubauer,et al.  Temporal and spatial variability of personal exposure to radio frequency electromagnetic fields. , 2009, Environmental research.

[7]  Niels Kuster,et al.  The Virtual Family—development of surface-based anatomical models of two adults and two children for dosimetric simulations , 2010, Physics in medicine and biology.

[8]  K. Radon,et al.  Exposure to radio-frequency electromagnetic fields and behavioural problems in Bavarian children and adolescents , 2010, European Journal of Epidemiology.

[9]  A. Huang,et al.  Immunologic and hematopoietic alterations by 2,450-MHz electromagnetic radiation. , 1980, Bioelectromagnetics.

[10]  K. Jokela,et al.  ICNIRP Guidelines GUIDELINES FOR LIMITING EXPOSURE TO TIME-VARYING , 1998 .

[11]  Georg Neubauer,et al.  The association between exposure determined by radiofrequency personal exposimeters and human exposure: A simulation study , 2010, Bioelectromagnetics.

[12]  Luc Martens,et al.  Assessment of RF Exposures from Emerging Wireless Communication Technologies in Different Environments , 2012, Health physics.

[13]  Georg Neubauer,et al.  Classification of personal exposure to radio frequency electromagnetic fields (RF-EMF) for epidemiological research: Evaluation of different exposure assessment methods. , 2010, Environment international.

[14]  N. Kuster,et al.  Assessment Methods for Demonstrating Compliance With Safety Limits of Wireless Devices Used in Home and Office Environments , 2007, IEEE Transactions on Electromagnetic Compatibility.

[15]  H-P Neitzke,et al.  Determination of exposure due to mobile phone base stations in an epidemiological study. , 2007, Radiation protection dosimetry.

[16]  Wout Joseph,et al.  Combining near‐ and far‐field exposure for an organ‐specific and whole‐body RF‐EMF proxy for epidemiological research: A reference case , 2013, Bioelectromagnetics.

[17]  Györgyi Kubinyi,et al.  Personal RF exposimetry in urban area , 2008, Ann. des Télécommunications.

[18]  Iarc Monographs,et al.  Non-ionizing radiation, Part 2: Radiofrequency electromagnetic fields. , 2013, IARC monographs on the evaluation of carcinogenic risks to humans.

[19]  Georg Neubauer,et al.  Measurement setup and protocol for characterizing and testing radio frequency personal exposure meters , 2012, Bioelectromagnetics.

[20]  E Cardis,et al.  Distribution of RF energy emitted by mobile phones in anatomical structures of the brain , 2008, Physics in medicine and biology.

[21]  Seong-Ook Park,et al.  Evaluation of RF electromagnetic field exposure levels from cellular base stations in Korea , 2010, Bioelectromagnetics.

[22]  Ieee Standards Board IEEE standard for safety levels with respect to human exposure to radio frequency electromagnetic fields, 3kHz to 300 GHz , 1992 .

[23]  Simon Mann,et al.  Assessing personal exposures to environmental radiofrequency electromagnetic fields , 2010 .

[24]  E Cardis,et al.  Residential exposure to radiofrequency fields from mobile phone base stations, and broadcast transmitters: a population-based survey with personal meter , 2009, Occupational and Environmental Medicine.

[25]  Katja Radon,et al.  Personal exposure to mobile phone frequencies and well‐being in adults: A cross‐sectional study based on dosimetry , 2008, Bioelectromagnetics.

[26]  Georg Neubauer,et al.  A model for radiofrequency electromagnetic field predictions at outdoor and indoor locations in the context of epidemiological research , 2009, Bioelectromagnetics.

[27]  Niels Kuster,et al.  Measured radiofrequency exposure during various mobile-phone use scenarios , 2011, Journal of Exposure Science and Environmental Epidemiology.

[28]  Johannes Tomitsch,et al.  Survey of electromagnetic field exposure in bedrooms of residences in lower Austria. , 2010, Bioelectromagnetics.

[29]  Tom Dhaene,et al.  Assessment of outdoor radiofrequency electromagnetic field exposure through hotspot localization using kriging-based sequential sampling. , 2013, Environmental research.

[30]  Sam Agneessens,et al.  Personal distributed exposimeter for radio frequency exposure assessment in real environments , 2013, Bioelectromagnetics.

[31]  S. Henderson,et al.  Survey of RF exposure levels from mobile telephone base stations in Australia , 2006, Bioelectromagnetics.

[32]  H Kromhout,et al.  Geospatial modelling of electromagnetic fields from mobile phone base stations. , 2013, The Science of the total environment.

[33]  K. Joyner,et al.  Comparative international analysis of radiofrequency exposure surveys of mobile communication radio base stations , 2012, Journal of Exposure Science and Environmental Epidemiology.

[34]  Martin Röösli,et al.  Personal radio frequency electromagnetic field exposure in Basel and area (Switzerland): an overview of the QUALIFEX project. , 2009 .

[35]  J. Tomitsch,et al.  Trends in residential exposure to electromagnetic fields from 2006 to 2009. , 2012, Radiation protection dosimetry.

[36]  Joe Wiart,et al.  Feasibility of future epidemiological studies on possible health effects of mobile phone base stations , 2006, Bioelectromagnetics.

[37]  Juan Blas,et al.  Potential exposure assessment errors associated with body‐worn RF dosimeters , 2007, Bioelectromagnetics.

[38]  Luc Martens,et al.  Conduct of a personal radiofrequency electromagnetic field measurement study: proposed study protocol , 2010, Environmental health : a global access science source.

[39]  E Cardis,et al.  Variability of radiofrequency exposure across days of the week: a population-based study. , 2011, Environmental research.

[40]  Hugo Lehmann,et al.  Electromagnetic field measurements using personal exposimeters , 2008, Bioelectromagnetics.

[41]  G. Ziegelberger,et al.  International commission on non-ionizing radiation protection. , 2006, Progress in biophysics and molecular biology.

[42]  J. Herbertz Comment on the ICNIRP guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz) , 1998, Health physics.

[43]  P. Ravazzani,et al.  Electromagnetic field exposure assessment in Europe radiofrequency fields (10 MHz–6 GHz) , 2013, Journal of Exposure Science and Environmental Epidemiology.

[44]  国際非電離放射線防護委員会 ICNIRP statement on the "Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz)". , 2009, Health physics.

[45]  T. Eikelboom,et al.  Personal radiofrequency electromagnetic field measurements in The Netherlands: exposure level and variability for everyday activities, times of day and types of area. , 2012, Environment international.

[46]  J. Wesolowski The relation between policy and research planning. , 1991, Journal of exposure analysis and environmental epidemiology.

[47]  Georg Neubauer,et al.  Cohort study on the effects of everyday life radio frequency electromagnetic field exposure on non-specific symptoms and tinnitus. , 2012, Environment international.

[48]  Tom Dhaene,et al.  Exposure assessment of mobile phone base station radiation in an outdoor environment using sequential surrogate modeling , 2013, Bioelectromagnetics.

[49]  Joe Wiart,et al.  Analysis of the influence of the power control and discontinuous transmission on RF exposure with GSM mobile phones , 2000 .

[50]  N Leitgeb,et al.  Magnetic emissions of electric appliances. , 2008, International journal of hygiene and environmental health.

[51]  Antonio Jiménez,et al.  EXPOSURE TO HIGH-FREQUENCY ELECTROMAGNETIC FIELDS (100 kHz–2 GHz) IN EXTREMADURA (SPAIN) , 2011, Health physics.

[52]  Martin Röösli,et al.  Impact of one’s own mobile phone in stand-by mode on personal radiofrequency electromagnetic field exposure , 2013, Journal of Exposure Science and Environmental Epidemiology.

[53]  C. Bornkessel,et al.  Determination of the general public exposure around GSM and UMTS base stations. , 2007, Radiation protection dosimetry.

[54]  Joe Wiart,et al.  Exposure induced by WCDMA mobiles phones in operating networks , 2009, IEEE Transactions on Wireless Communications.

[55]  J. Bolte,et al.  Calibration and uncertainties in personal exposure measurements of radiofrequency electromagnetic fields , 2011, Bioelectromagnetics.

[56]  Elisabeth Cardis,et al.  Radiofrequency exposure in the French general population: band, time, location and activity variability. , 2009, Environment international.

[57]  Paolo Grazioso,et al.  The Italian national electromagnetic field monitoring network , 2008, Ann. des Télécommunications.

[58]  N. Kuster,et al.  Assessment of the radio-frequency electromagnetic fields induced in the human body from mobile phones used with hands-free kits. , 2009, Physics in medicine and biology.

[59]  G. Thuróczy,et al.  Comparison of personal radio frequency electromagnetic field exposure in different urban areas across Europe. , 2010, Environmental research.

[60]  Katja Radon,et al.  Personal dosimetry of exposure to mobile telephone base stations? An epidemiologic feasibility study comparing the Maschek dosimeter prototype and the Antennessa DSP‐090 system , 2006, Bioelectromagnetics.

[61]  Luc Martens,et al.  CHARACTERIZATION OF PERSONAL RF ELECTROMAGNETIC FIELD EXPOSURE AND ACTUAL ABSORPTION FOR THE GENERAL PUBLIC , 2008, Health physics.

[62]  M. Egger,et al.  Residence near power lines and mortality from neurodegenerative diseases: longitudinal study of the Swiss population. , 2008, American journal of epidemiology.

[63]  Jimmy Estenberg,et al.  Extensive frequency selective measurements of radiofrequency fields in outdoor environments performed with a novel mobile monitoring system , 2014, Bioelectromagnetics.

[64]  G Berg-Beckhoff,et al.  Quality control for exposure assessment in epidemiological studies. , 2010, Radiation protection dosimetry.

[65]  A. Ahlbom Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz) , 1998 .

[66]  Kenneth R Foster,et al.  Biological Effects of Radiofrequency Fields: Does Modulation Matter? , 2004, Radiation research.

[67]  I. Cosic,et al.  Factors influencing uncertainty in measurement of electric fields close to the body in personal RF dosimetry. , 2010, Radiation protection dosimetry.

[68]  Wayne A. Cornelius,et al.  Levels of radiofrequency radiation from GSM mobile telephone base stations , 2000 .

[69]  Iarc Monographs,et al.  Non-ionizing radiation, Part 1: static and extremely low-frequency (ELF) electric and magnetic fields. , 2002, IARC monographs on the evaluation of carcinogenic risks to humans.

[70]  S. Kuehn EMF Risk Assessment , 2009 .

[71]  S. Mazuelas,et al.  E-field assessment errors associated with RF dosemeters for different angles of arrival. , 2008, Radiation protection dosimetry.

[72]  P. Ravazzani,et al.  Potential health impacts of residential exposures to extremely low frequency magnetic fields in Europe. , 2013, Environment international.

[73]  Leeka Kheifets,et al.  Extremely low frequency magnetic field measurements in buildings with transformer stations in Switzerland. , 2011, The Science of the total environment.

[74]  M. Egger,et al.  Statistical analysis of personal radiofrequency electromagnetic field measurements with nondetects , 2008, Bioelectromagnetics.

[75]  D. M. Sassone,et al.  Comparison of extremely low frequency (ELF) magnetic field personal exposure monitors , 2002, Journal of Exposure Analysis and Environmental Epidemiology.

[76]  G. Thuróczy Report on the level of exposure (frequency, patterns and modulation) in the European Union , 2013 .

[77]  Achilles Boursianis,et al.  Measurements for assessing the exposure from 3G femtocells. , 2012, Radiation protection dosimetry.

[78]  Martin Röösli,et al.  Use of portable exposure meters for comparing mobile phone base station radiation in different types of areas in the cities of Basel and Amsterdam. , 2014, The Science of the total environment.