Design, realisation and evaluation of a liquid hollow torso phantom appropriate for wearable antenna assessment

This study examines the design, realisation and evaluation of a lightweight and low cost hollow oval cross-section torso phantom appropriate for wearable antenna performance assessment. The phantom consists of an empty inner space (hollow) surrounded by a shell with double plastic walls between whic...

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Bibliographic Details
Published in:IET microwaves, antennas & propagation antennas & propagation, 2017-07, Vol.11 (9), p.1308-1316
Main Authors: Tsolis, Aris, Paraskevopoulos, Anastasios, Alexandridis, Antonis A, Whittow, William G, Chauraya, Alford, Vardaxoglou, John (Yiannis) C
Format: Article
Language:English
Subjects:
absorbing media
double‐plastic walls
electric field distribution
far‐field wearable antenna performance
full liquid torso phantom
heterogeneous anthropomorphic voxel phantom
hollow oval cross‐section torso phantom
homogeneous anthropomorphic solid phantom
liquid hollow torso phantom
path loss
Research Article
RF absorbing material
tissue simulating liquid
wearable antenna assessment
wearable antenna performance assessment
wearable antennas
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Summary:This study examines the design, realisation and evaluation of a lightweight and low cost hollow oval cross-section torso phantom appropriate for wearable antenna performance assessment. The phantom consists of an empty inner space (hollow) surrounded by a shell with double plastic walls between which there is a tissue simulating liquid. The phantom's plastic shell is made of a low loss cast acrylic and the liquid is a commercially available one with properties calibrated for the frequency range of 2–6 GHz. The proposed phantom is compared, through simulations, with a full liquid torso phantom and a heterogeneous anthropomorphic voxel phantom. In addition, the fabricated phantom is compared with human bodies and a homogeneous anthropomorphic solid phantom, through measurements. The phantom performance is tested in terms of electric field distribution of a wearable antenna on its surface and the path loss between two wearable antennas, on either side of the phantom. It is proved that the hollow phantom performance approximates the full liquid phantom when an RF absorbing material is placed in the central hollow region. The phantom performance in terms of S11 wearable antenna measurements is evaluated and found in good agreement with real human bodies in the examined frequency range (2–6 GHz). The far-field wearable antenna performance of the proposed phantom shows deviation in gain
ISSN:1751-8725
1751-8733
1751-8733
DOI:10.1049/iet-map.2016.0235