Title :
On the human exposure to radio frequency radiations expected from future small connected objects
Author :
Phan-Huy, Dinh-Thuy ; Kokar, Yvan ; Sarrebourse, Thierry ; Malhouroux-Gaffet, Nadine ; Pajusco, Patrice ; Leray, Christian ; Gati, Azeddine ; Wiart, Joe
Author_Institution :
Orange Labs., Issy-Les-Moulineaux, France
Abstract :
This paper investigates the human exposure to radio frequency radiations expected from future connected objects. The paper focuses on small objects of around ten centimeters. The study takes into account very recent advances on the design of compact antenna arrays. The specificities of the physical layer of wireless communication standards such as Orthogonal Frequency Division Multiplex waveform and Multiple Input Multiple Output techniques are also taken into account. The Specific Absorption Rate is measured for an object using time reversal based spatial focusing (or equivalently Maximum Ratio Transmission beamforming) as a multi-antenna technique and 8 port micro-structured antennas or 8 port patch antennas as compact antenna solutions.
Keywords :
MIMO communication; OFDM modulation; array signal processing; biological effects of microwaves; microstrip antenna arrays; 8-port microstructured antennas; 8-port patch antennas; compact antenna arrays; human exposure; maximum ratio transmission beamforming; multiantenna technique; multiple-input multiple-output technique; orthogonal frequency division multiplex waveform; physical layer; radio frequency radiations; small-connected objects; specific absorption rate; time reversal-based spatial focusing; wireless communication standards; Antenna arrays; Antenna measurements; MIMO; Ports (Computers); Receivers; Transmitting antennas; MIMO; SG; Specific Absorption Rate; connected objects; human exposure; internet-of-things; micro-structured antennas;
Conference_Titel :
Globecom Workshops (GC Wkshps), 2014
DOI :
10.1109/GLOCOMW.2014.7063594
