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| Title: | Cell Phone Radiation Exposure Limits and Engineering Solutions |
| Author(s): | Héroux, Paul ; Belyaev, Igor ; Chamberlin, Kent ; Dasdag, Suleyman ; De Salles, Alvaro Augusto Almeida ; Rodriguez, Claudio Enrique Fernandez ; Hardell, Lennart ; Kelley, Elizabeth ; Kesari, Kavindra Kumar ; Mallery-Blythe, Erica ; Melnick, Ronald L. ; Miller, Anthony B. ; Moskowitz, Joel M. ; , International Commission on the Biological Effects of Electromagnetic Fields (ICBE-EMF) |
| Date: | 2023-04 |
| Language: | en |
| Pages: | 25 1-25 |
| Department: | McGill University Slovak Academy of Sciences University of New Hampshire Istanbul Medeniyet University Universidade Federal do Rio Grande do Sul Instituto Federal de Educação, Ciȇncia e Tecnologia do Rio Grande do Sul Örebro University International Commission on the Biological Effects of Electromagnetic Fields (ICBE-EMF) OtaNano British Society for Ecological Medicine National Institutes of Health University of Toronto University of California Berkeley Department of Applied Physics |
| Series: | International Journal of Environmental Research and Public Health, Volume 20, issue 7 |
| ISSN: | 1661-7827 |
| DOI-number: | 10.3390/ijerph20075398 |
| Keywords: | antennas, cancer, cellular phone, electromagnetic hypersensitivity, radiofrequency radiation, SAR |
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Héroux , P , Belyaev , I , Chamberlin , K , Dasdag , S , De Salles , A A A , Rodriguez , C E F , Hardell , L , Kelley , E , Kesari , K K , Mallery-Blythe , E , Melnick , R L , Miller , A B , Moskowitz , J M & International Commission on the Biological Effects of Electromagnetic Fields (ICBE-EMF) 2023 , ' Cell Phone Radiation Exposure Limits and Engineering Solutions ' , International Journal of Environmental Research and Public Health , vol. 20 , no. 7 , 5398 , pp. 1-25 . https://doi.org/10.3390/ijerph20075398 |
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Abstract:In the 1990s, the Institute of Electrical and Electronics Engineers (IEEE) restricted its risk assessment for human exposure to radiofrequency radiation (RFR) in seven ways: (1) Inappropriate focus on heat, ignoring sub-thermal effects. (2) Reliance on exposure experiments performed over very short times. (3) Overlooking time/amplitude characteristics of RFR signals. (4) Ignoring carcinogenicity, hypersensitivity, and other health conditions connected with RFR. (5) Measuring cellphone Specific Absorption Rates (SAR) at arbitrary distances from the head. (6) Averaging SAR doses at volumetric/mass scales irrelevant to health. (7) Using unrealistic simulations for cell phone SAR estimations. Low-cost software and hardware modifications are proposed here for cellular phone RFR exposure mitigation: (1) inhibiting RFR emissions in contact with the body, (2) use of antenna patterns reducing the Percent of Power absorbed in the Head (PPHead) and body and increasing the Percent of Power Radiated for communications (PPR), and (3) automated protocol-based reductions of the number of RFR emissions, their duration, or integrated dose. These inexpensive measures do not fundamentally alter cell phone functions or communications quality. A health threat is scientifically documented at many levels and acknowledged by industries. Yet mitigation of RFR exposures to users does not appear as a priority with most cell phone manufacturers.
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Description:Publisher Copyright: © 2023 by the authors.
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