Share Email Print
cover

Proceedings Paper

Signatures of human skin in the millimetre wave band (80-100) GHz
Author(s): Amani Y. Owda; Nacer-Ddine Rezgui; Neil A. Salmon
Format Member Price Non-Member Price
PDF $14.40 $18.00

Paper Abstract

With the performance of millimeter wave security screening imagers improving (reduced speckle, greater sensitivity, and better spatial resolution) attention is turning to identification of anomalies which appear on the human body. Key to this identification is the understanding of how the emissive and reflective properties vary over the human body and between different categories of people, defined by age and gender for example. As the interaction of millimetre waves with the human body is only a fraction of a millimetre into the skin, precise measurement of the emission and reflection of this radiation will allow comparisons with the norm for that region of the body and person category. On an automated basis at security screening portals, this will increase detection probabilities and reduce false alarm rates, ensuring high throughputs at entrances to future airport departure lounges and transport networks. A technique to measure the human skin emissivity in vivo over the frequency band 80 GHz to 100 GHz is described. The emissivities of the skin of a sample of 60 healthy participants (36 males and 24 females) measured using a 90 GHz calibrated radiometer was found to range from 0.17±0.002 to 0.68±0.002. The radiometric measurements were made at four locations on the arm, namely: palm of hand, back of hand, dorsal surface of the forearm, and volar side of the forearm, where the water content and the skin thickness are known to be different. These measurements show significant variation in emissivity from person to person and, more importantly, significant variation at different locations on the arms of individuals. Males were found to have an emissivity 0.03 higher than those of females. The emissivity of the back of the hand, where the skin is thinner and the blood vessels are closer to the skin surface, was found to be lower by 0.0681 than the emissivity of the palm of the hand, where the skin is thicker. The measurements also show that the emissivity of the volar side location where the blood vessels are closer to the skin surface is lower by 0.0677 than the emissivity of the dorsal surface location. The measured differences agree with those differences estimated by a half space electromagnetic model of the interaction and can be interpreted in terms of the differing water contents and skin thickness of those regions of the body.

Paper Details

Date Published: 6 October 2017
PDF: 7 pages
Proc. SPIE 10439, Millimetre Wave and Terahertz Sensors and Technology X, 1043904 (6 October 2017); doi: 10.1117/12.2292046
Show Author Affiliations
Amani Y. Owda, Manchester Metropolitan Univ. (United Kingdom)
Nacer-Ddine Rezgui, Manchester Metropolitan Univ. (United Kingdom)
Neil A. Salmon, Manchester Metropolitan Univ. (United Kingdom)


Published in SPIE Proceedings Vol. 10439:
Millimetre Wave and Terahertz Sensors and Technology X
Neil A. Salmon; Sherif Sayed Ahmed, Editor(s)

© SPIE. Terms of Use
Back to Top