High radiation from mm wave 5G deployment in AustinTexas
dinsdag, 17 november 2020 - Categorie: Onderzoeken
nov. 12, 2020
RADIATION ANALYSIS IN A GRADUAL 5G NETWORK DEPLOYMENT STRATEGY
by Ahmad M. El-Hajj and Tarek Naous of the Electrical & Computer Eng. Department of Beirut Arab University
A 2020 paper analyzed the radio frequency radiation environment that would result if a mmWave-based 5G network was fully deployed in Austin Texas. The researcher first mapped the pre-existing LTE nodes and then laid out the real world design for the densification of cell towers and signal repeaters which would be needed in the City in order to fully build out a mmWave-based 5G network. The engineers then simulated the RF power densities that would be experienced in the outdoor environments should the 5G mmWave antennas be installed and they compared these RF levels to power levels of the currently installed LTE network.
The researchers created 2 heat-maps showing the simulated power densities before and after potential 5G deployment in Austin Texas.
The researchers conclude that, “The presented results clearly show that the potential radiation levels that will be reached upon the roll out of 5G networks do not comply with all of the aforementioned exposure limits. This suggests that 5G mobile networks can not yet be classified as safe for the public, and demands serious considerations before using mmWave communications for 5G networks, given the potential harms it could afflict on the public.”
On a governmental level, the exposure limits for the power density need to be revised using today’s data and approaches to bridge the gap between the thresholds specified by the different institutes and commissions. On a technological and scientific level, the radiation exposure constraint can open the door for innovative 5G solutions targeted to limit the health risks and economic barriers associated with this problem.”
A. M. El-Hajj and T. Naous, “Radiation Analysis in a Gradual 5G Network Deployment Strategy,” 2020 IEEE 3rd 5G World Forum (5GWF), Bangalore, India, 2020, pp. 448-453, doi: 10.1109/5GWF49715.2020.9221314.
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