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Human Exposure Assessment to Wearable Antennas: Effect of Position and Interindividual Anatomical Variability

Silvia Gallucci, Marta Bonato, Emma Chiaramello, Serena Fiocchi, Gabriella Tognola, Marta Parazzini

2022International Journal of Environmental Research and Public Health12 citationsDOIOpen Access PDF

Abstract

(1) Background: This work aims to assess the human exposure to the RF-EMFs emitted by a wearable antenna. (2) Methods: a wearable antenna tuned at f = 2.45 GHz was tested by placing it in six realistic configurations relative to a male and female human model. The exposure assessment was performed by means of computational methods to estimate the SAR10g distributions at 1W of input power. (3) Results: (i) for all the configurations the SAR10g distributions resulted always mainly concentrated on a superficial area immediately below the antenna itself; (ii) the obtained values have shown that the configuration with the highest exposure value was when the antenna was posed on the arm; (iii) the exposure tends to be higher for male model. (4) Discussion and Conclusions: This work highlights the importance of performing an exposure assessment when the antenna is placed on the human wearer considering the growth of the wearable technology and its wide variety of fields of application, e.g., medical and military.

Topics & Concepts

Wearable computerAntenna (radio)Position (finance)Computer scienceBioelectromagneticsAcousticsTelecommunicationsPhysicsElectromagnetic fieldEmbedded systemQuantum mechanicsEconomicsFinanceWireless Body Area NetworksElectromagnetic Fields and Biological EffectsAntenna Design and Analysis