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Enabling radioprotection capabilities in next generation wireless communication systems: An ecological green approach
Author(s) -
Zarakovitis Charilaos C.,
Ni Qiang,
Kourtis MichailAlexandros
Publication year - 2018
Publication title -
transactions on emerging telecommunications technologies
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.366
H-Index - 47
ISSN - 2161-3915
DOI - 10.1002/ett.3488
Subject(s) - wireless , computer science , subcarrier , quality of service , radio resource management , communications system , wireless network , telecommunications , orthogonal frequency division multiplexing , channel (broadcasting)
In future fifth‐generation and beyond radio systems, access points equipped with massive antennas will be deployed to support the increased communication demands. As a result, radio environments will become more dense and users will be exposed to higher electromagnetic field (EMF) radiation from wireless devices than today. This paper proposes to take preemptive action toward protecting the public health from potential EMF‐related ill effects by examining radiation‐aware solutions for future green wireless communication systems from the radio resource scheduling perspective. Our efforts focus on correlating the transmit power levels of the wireless system with the operands used to express the EMF dosimetry metrics known as maximum permissible exposure and specific absorption rate. In addition, we formulate power minimization problems subject to the maximum permissible exposure and specific absorption rate safety standards, and the individual user quality‐of‐service demands to derive convex optimization‐based solution of dynamic subcarrier allocation and adaptive power management. The simulation results confirm that our green solution reduces significantly the user exposure to radiation, while providing the required quality of service. We expect that our findings can kick off new research directions for controlling the public exposure to radiation from wireless devices in dense networks toward safer fifth‐generation communication systems.