Publication detail
Filtering Antenna Array for Off-Body Communication
KUFA, M. VÉLIM, J. HEBELKA, V. RAIDA, Z.
Original Title
Filtering Antenna Array for Off-Body Communication
English Title
Filtering Antenna Array for Off-Body Communication
Type
conference paper
Language
en
Original Abstract
The paper is focused on the design of a three-element filtering antenna array fed by apertures which can be used on a human body for off-body communication. The filtering array was designed for the ISM band (5.8 GHz). The filtering array was simulated in CST Microwave Studio using a three-layer model of a human tissue. The three-layer phantom was manufactured to verify simulated results. The filtering antenna was fabricated and measured in a free space and on the phantom. Simulations and measurements were in good agreement.
English abstract
The paper is focused on the design of a three-element filtering antenna array fed by apertures which can be used on a human body for off-body communication. The filtering array was designed for the ISM band (5.8 GHz). The filtering array was simulated in CST Microwave Studio using a three-layer model of a human tissue. The three-layer phantom was manufactured to verify simulated results. The filtering antenna was fabricated and measured in a free space and on the phantom. Simulations and measurements were in good agreement.
Keywords
filtering antenna, filtenna, equivalent model, off-body communication, human tissue, phantom
RIV year
2014
Released
20.11.2014
ISBN
978-80-01-05637-0
Book
2nd Conference on Mobile and Information Technologies in Medicine November 20th-21st 2014, Prague, Czech Republic
Edition number
1
Pages from
1
Pages to
4
Pages count
4
Documents
BibTex
@inproceedings{BUT110389,
author="Martin {Kufa} and Jan {Vélim} and Vladimír {Hebelka} and Zbyněk {Raida}",
title="Filtering Antenna Array for Off-Body Communication",
annote="The paper is focused on the design of a three-element filtering antenna array fed by apertures which can be used on a human body for off-body communication. The filtering array was designed for the ISM band (5.8 GHz). The filtering array was simulated in CST Microwave Studio using a three-layer model of a human tissue. The three-layer phantom was manufactured to verify simulated results. The filtering antenna was fabricated and measured in a free space and on the phantom. Simulations and measurements were in good agreement.",
booktitle="2nd Conference on Mobile and Information Technologies in Medicine November 20th-21st 2014, Prague, Czech Republic",
chapter="110389",
howpublished="online",
year="2014",
month="november",
pages="1--4",
type="conference paper"
}