• NEHA SHUKLA
• Dr. A. C. SUBHAJINI

Wearable sensors as well as methods are quickly being used as ways of augmenting as well as enhancing health care services. To be able to offer a cable free biomedical monitoring system, new wireless technologies connected with sensor apps have been marketed as the following biomedical revolution, promising a major enhancement in the quality of health care programs. Still the size and power needs of wireless sensors that are generally dominated by the RF aisle of the associated transceivers, have limited the adoption of theirs, resulting in increase in Intra Body Communication (IBC) devices where information transmission is actually carried out throughout the body (mostly skin layers), instead of via air.. Radio Frequency (RF) front side ends, because every individual node are actually replaced with simpler interfaces leading to lower energy and decreased area. With this paper, we suggest as well as validate making use of the Intra body communications channel like a biometric identity. Combining experimental measurements collected from 5 subjects as well as 2 multi layer tissue mimicking materials' phantoms, various machine learning algorithms had been utilized as well as compared to evaluate as well as validate making use of the channel qualities as well as functions like a biometric identity for subject identification. An accuracy of 98.5 % was achieved, together with a precision as well as recall of 0.984 as well as 0.984, respectively, when testing the styles against subject identification above outcomes collected from the entire samples. To us a portable and simple setup, this particular effort shows accuracy, reliability, and the feasibility of the suggested biometric identity, allowing for constant identification as well as verification.

Body Area Networks; Channel Gain/Attenuation; Channel Modeling; Galvanic Coupling; Intra-Body Communications; Phantoms; Tissue Mimicking Materials; Ultralow Power Systems

"EXPERIMENTAL EVALUATION OF BIOMETRIC IDENTITY BASED ON THE INTRA-BODY COMMUNICATIONS CHANNEL", International Journal of Emerging Technologies and Innovative Research (www.jetir.org), ISSN:2349-5162, Vol.6, Issue 4, page no.1379-1389, April-2019, Available :http://www.jetir.org/papers/JETIR1904S02.pdf

"EXPERIMENTAL EVALUATION OF BIOMETRIC IDENTITY BASED ON THE INTRA-BODY COMMUNICATIONS CHANNEL", International Journal of Emerging Technologies and Innovative Research (www.jetir.org | UGC and issn Approved), ISSN:2349-5162, Vol.6, Issue 4, page no. pp1379-1389, April-2019, Available at : http://www.jetir.org/papers/JETIR1904S02.pdf