ABSTRACT
In this paper we present the design of a cost-effective wearable sensor to detect and indicate the strength and other characteristics of the electric field emanating from a laptop display. Our Electromagnetic Field Detector Bracelet can provide an immediate awareness of electric fields radiated from an object used frequently. Our technology thus supports awareness of ambient background emanation beyond human perception. We discuss how detection of such radiation might help to "fingerprint" devices and aid in applications that require determination of indoor location.
- Adair, R. K.: http://spot.colorado.edu/~naglej/adair_and_emwaves.pdfGoogle Scholar
- Bastian, J. (1994). Electrosensory Organisms. Physics Today, Vol. 47, No. 2, pp. 30--37.Google ScholarCross Ref
- Baxter, L. K. (1997). Capacitive Sensors -- Design and Applications, IEEE Press.Google Scholar
- Cheok, A.D. and Li, Y. (2008). Ubiquitous interaction with positioning and navigation using a novel light sensor-based information transmission system. Personal and Ubiquitous Computing, Vol. 12, 2008, pp. 445--458. Google ScholarDigital Library
- Draper, G., Vincent, T., Kroll, M. E. and Swanson, J. (2005). Childhood cancer in relation to distance from high voltage power lines in England and Wales: a case-control study. British Medical Journal, June 05.Google ScholarCross Ref
- Dunne, A. and Raby, F. (2001). Placebo. 20c Study Gallery, Victoria & Albert Museum.Google Scholar
- Eisenberg, A. (2001). Transforming a Fluorescent Glare Into a Guiding Light. New York Times, Oct. 11th 2001.Google Scholar
- Electromagnetic Field Meter: http://www.emfmeter.com.au/index.htmlGoogle Scholar
- Fraden, J. (2004). Handbook of Modern Sensors, Third Edition. Springer Verlag, Berlin.Google Scholar
- Golding, A.R. and Lesh, N. (1999). "Indoor Navigation Using a Diverse Set of Cheap, Wearable Sensors," in Proc. of the IEEE Third International Symposium on Wearable Computers (ISWC 1999), pp. 29--36. Google ScholarDigital Library
- Hardell L, Mild KH, Carlberg M, Söderqvist F. (2006). Tumour risk associated with use of cellular telephones or cordless desktop telephones. World Journal of Surgical Oncology. 11;4:74.Google Scholar
- Hepworth, S. J., Feltbower, R. G., Parslow, R. C. and McKinney, P. A. (2005). Childhood cancer and power lines: Results do not support causal role for electromagnetic fields. British Medical Journal, Sept 05.Google ScholarCross Ref
- Kuhn, M. G. and Anderson, R. J. 1998. Soft Tempest: Hidden Data Transmission Using Electromagnetic Emanations. In Proceedings of the Second international Workshop on information Hiding (April 14 -- 17, 1998). D. Aucsmith, Ed. Lecture Notes In Computer Science, vol. 1525. Springer--Verlag, London, 124--142.Google Scholar
- Neubauer, G., Feychting, M., Hamnerius, Y., Kheifets, L., Kuster, N., Ruiz, I., Schüz, J., Uberbacher, R., Wiart, J., and Roosli, M. (2007). Feasibility of future epidemiological studies on possible health effects of mobile phone base stations. Bioelectromagnetics 2007; Vol: 28 (3): 224--230.Google Scholar
- Thiele, E. (2001). Tempest for Eliza. http://www.erikyyy.de/tempest/Google Scholar
Index Terms
- Cost-effective wearable sensor to detect EMF
Recommendations
Design and Evaluation of a Fractal Wearable Textile Antenna for Medical Applications
AbstractThe paper presents a wearable fractal textile antenna design for Wireless Body Area network. The antenna is designed by using hybrid Sierpinski-Minkowski fractal geometry on the microstrip patch antenna. The proposed textile wearable antenna based ...
Performance Analysis of Novel Wearable Textile Antenna Design for Medical and Wireless Applications
AbstractThe rectangular Horn–shaped wearable microstrip patch antenna is designed to resonate in the ISM (Industrial, Scientific, and Medical) band and other commercial wireless applications.The proposed multiband antenna is a wearable textile antenna ...
Frequency Reconfigurable Wearable Low-Cost Multi Band Antenna for WLAN and ISM Band Application
AbstractThis communication reports a frequency reconfigurable wearable low-cost multi band antenna using diode integrated metamaterial switching combination. The antenna covers the frequency spectra of WLAN, WiMAX and GSM application bands. The antenna is ...
Comments