Observations On Performance And Challenges Of Implantable Antennas In Biotelemetry Application
Abstract
Keywords: IMDs, MICS(Medical Implant Communication System), Phantom, SAR(Specific Absorption Rate)
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Zhang H., Plettemeier D., Hahnel Q.W. R. On-Body directional antenna design for in-body uwb wireless communication. IEEE. 2011; 1011–15p.
Kiourti A., Konstantina S., Nikita. A review of implantable patch antennas for biomedical telemetry: challenges and solution. IEEE; 2012; 54(3): 210–28p.
Foster R., Rajab Y.H.A.S.M. Antenna and propagation of implanted RFIDs for pervasive healthcare applications. IEEE; 2010 Sep; 98(9): 1648–55p.
Saito K., Ito K., Takahashi H.Y.L.M. Performance of implantable folded dipole antenna for in- body wireless communication. IEEE. 2013 March; 61(3): 1363–70p.
Takahashi M., Ito K., Saito W.X.K. performances of an implanted cavity slot antenna embedded in the human arm. IEEE. 2009 April; 57(4): 894–9p.
Obberger G., Reisenzahn A., Hochmair E. et al. Ultra-Wideband transceivers for cochlear implants. EURASIP Journal on Applied Signal Processing.2005; 18: 3069–75p.
Lazzi G., Humayun M., Gosalia K. Investigation of microwave data telemetry link for a retinal prosthesis. IEEE Transactions on Microwave Theory and Techniques. 2004 August; 52(8): 1925–32p.
Hood A. Z., Topsakal E., Karacolak T. Design of a dual-band implantable antenna and development of skin mimicking gels for continuous glucose monitoring. IEEE Transactions on Microwave Theory and Techniques. 2008 April; 56(4): 1001–8p.
Kiourti A., Nikita K. S. Miniature scalp-implantable antennas for telemetry in the MICS and ISM bands: design safety considerations and link budget analysis. IEEE Transactions on Antennas and Propagation (to appear).
Akkaya E., Türetken B., Eren San Fatma Zengin S. Design and realization of ultra wide-band implant antenna for biotelemetry systems. IEEE. 2011
DOI: https://doi.org/10.37628/ijmet.v2i1.283
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