conference paper
Simulation of the path loss between insulated dipoles embedded in homogeneous human muscle tissue
Abstract
The path loss between insulated dipole antennas in homogeneous human muscle tissue is investigated at 2.457 GHz and an in-body path loss model is derived. Simulations using the FDTD and the MoM methods show excellent agreement. Also, the low values of the deviations demonstrate an excellent agreement between the simulations and models- conference
- info:eu-repo/semantics/conferenceObject
- info:eu-repo/semantics/publishedVersion
- Technology and Engineering
- muscle
- method of moments
- path loss simulation
- MoM method
- in-body path loss model
- homogeneous human muscle tissue
- insulated dipole antennas
- frequency 2.457 GHz
- FDTD
- dipole antennas
- finite difference time-domain analysis
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Full text
Last time updated on 12/11/2016
This paper was published in Ghent University Academic Bibliography.
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