DocumentCode
2378105
Title
Modeling for intra-body communication with bone effect
Author
Pun, S.-H. ; Gao, Y.M. ; Mak, P.U. ; Du, M. ; Vai, M.-I.
Author_Institution
Dept. of Electr. & Electron. Eng., Univ. of Macau, Macau, China
fYear
2009
fDate
3-6 Sept. 2009
Firstpage
693
Lastpage
696
Abstract
Intra-body communication (IBC) is a new, different ldquowirelessrdquo communication technique based on the human tissue. This short range ldquowirelessrdquo communication technology provides an alternative solution to wearable sensors, home health system, telemedicine and implanted devices. The development of the IBC enables the possibilities of providing less complexity and convenient communication methodologies for these devices. By regarding human tissue as communication channel, IBC making use of the conductivities properties of human tissue to send electrical signal from transmitter to receiver. In this paper, the authors proposed a new mathematical model for galvanic coupling type IBC based on a human limb. Starting from the electromagnetic theory, the authors treat human tissue as volume conductor, which is in analogous with the bioelectric phenomena analysis. In order to explain the mechanism of galvanic coupling type technique of IBC, applying the quasi-static approximation, the governing equation can be reduced to Laplace Equation. Finally, the analytical model is evaluated with on-body measurement for testing its performance. The comparison result shows that the developed mathematical model can provide good approximation for galvanic coupling type IBC on human limb under low operating frequencies.
Keywords
Laplace equations; bioelectric potentials; biological tissues; biomedical communication; biomedical electrodes; biomedical measurement; bone; muscle; Laplace Equation; band-type electrodes; bioelectric phenomena; bone effect; communication channel; convenient communication methodology; electric signal distribution; electromagnetic theory; galvanic coupling type IBC; human limb; human tissue; human tissue conductivities properties; intra-body communication modeling; low operating frequencies; on-body measurement; quasistatic approximation; wireless communication technique; Intra-Body Communication; galvanic coupling type technique; maxwell equations; quasi-static approximation; Bone and Bones; Computer Simulation; Electric Wiring; Equipment Design; Equipment Failure Analysis; Humans; Models, Biological; Monitoring, Ambulatory; Prostheses and Implants; Telemetry;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in Medicine and Biology Society, 2009. EMBC 2009. Annual International Conference of the IEEE
Conference_Location
Minneapolis, MN
ISSN
1557-170X
Print_ISBN
978-1-4244-3296-7
Electronic_ISBN
1557-170X
Type
conf
DOI
10.1109/IEMBS.2009.5332703
Filename
5332703
Link To Document