DocumentCode
762110
Title
Measurement and Modeling Mutual Capacitance of Electrical Wiring and Humans
Author
Buller, William ; Wilson, Brian
Author_Institution
Altarum Inst., Ann Arbor, MI
Volume
55
Issue
5
fYear
2006
Firstpage
1519
Lastpage
1522
Abstract
In a recent series of electric field sensing experiments, a theremin was used to measure the mutual capacitance between a human being and a length of electrical wiring. The instrument, based on the LM555 circuit, measures the deflections in capacitance due to the proximity of a human. The measurements are repeatable, and the difference in capacitance for a person at 0.5 m with a person at 1 m is consistent with the difference computed, assuming the human acts as a ground plane for the wiring. Much of the current literature in electric field sensing focuses on measures and models of mutual capacitance for humans interacting with plate conductors [J. R. Smith, Electric field imaging, Ph.D. dissertation, Mass. Inst. Technol., Cambridge, MA, 1999; N. Karlsson and J. O. Jarrhed, A capacitive sensor for the detection of humans in a robot cell, in Proc. IEEE IMTC Rec., May 18-20, 1993 pp. 164-166.], especially fingers near touch screens [D. Wiebe, A. Machynia, K. Mazur, and J. Epp, Human-computer interface device based on electric field sensing, Ph.D. dissertation, Univ. Manitoba, Winnipeg, MB, Canada, 2004]. The present investigation considers conducting wires to allow the development of portable rapidly deployable human proximity sensing systems that exploit existing electrical infrastructure in buildings. The experiment described here demonstrates that sensing with wires is possible at ranges on the order of a meter and provides evidence that modeling the person as a ground plane of finite extent provides a rough estimate of the change in mutual capacitance
Keywords
capacitance measurement; capacitive sensors; electric field measurement; man-machine systems; wiring; LM555 circuit; capacitance deflection; capacitance measurement; capacitive sensor; electric field effects; electric field measurement; electrical wiring; human detection; human proximity; man-machine systems; mutual capacitance; theremin; Anthropometry; Capacitance measurement; Circuits; Current measurement; Electric variables measurement; Humans; Instruments; Length measurement; Wires; Wiring; Capacitance measurement; electric field effects; electric field measurement; man–machine systems; theremin;
fLanguage
English
Journal_Title
Instrumentation and Measurement, IEEE Transactions on
Publisher
ieee
ISSN
0018-9456
Type
jour
DOI
10.1109/TIM.2006.880293
Filename
1703894
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