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A nanoscale communication network scheme and energy model for a human hand scenario.

Authors :
Canovas-Carrasco, Sebastian
Garcia-Sanchez, Antonio-Javier
Garcia-Haro, Joan
Source :
Nano Communication Networks; Mar2018, Vol. 15, p17-27, 11p
Publication Year :
2018

Abstract

Real-time monitoring of medical test parameters as well as biological and chemical substances inside the human body is an aspiration which might facilitate the control of pathologies and would ensure better effectiveness in diagnostics and treatments. Future Body Area NanoNetworks (BANN) represent an ongoing effort to complement these initiatives, although due to its early stage of development, further research is required. This paper contributes with a hierarchical BANN architecture consisting of two types of nanodevices, namely, nanonodes and a nanorouter, which are conceptually designed using technologically available electronic components. A straightforward communication scheme operating at the THz band for the exchange of information among nanodevices is also proposed. Communications are conducted in a human hand scenario since, unlike other parts of the human body, the negative impact of path loss and molecular absorption noise on the propagation of electromagnetic waves in biological tissues is mitigated. However, data transmission is restricted by the tiny size of nanodevices and their extremely limited energy storing capability. To overcome this concern, nanodevices must be powered through the bloodstream and external ultrasound energy harvesting sources. Under these conditions, the necessary energy and its management have been thoroughly examined and assessed. The results obtained reveal the outstanding ability of nanonodes to recharge, thus enabling each pair of nanonode–nanorouter to communicate every 52 min. This apparently long period is compensated by the considerably high number of nanonodes in the network, which satisfies a quasi-constant monitoring of medical parameter readings. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
18787789
Volume :
15
Database :
Supplemental Index
Journal :
Nano Communication Networks
Publication Type :
Academic Journal
Accession number :
128392988
Full Text :
https://doi.org/10.1016/j.nancom.2018.01.005