Microwave-based Nondestructive Sensing Approach for Blood Type Identification

This study reports the in-vitro characterization of blood samples based on the dielectric property measurements across the microwave spectrum 2 - 67 GHz using a newly developed commercial coaxial probe kit. This is done for different ABO-Rh types of synthetic blood samples as well as authentic speci...

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Main Authors: Omer, Ala Eldin, Shaker, George, Hughson, Richard, Safavi-Naeini, Safieddin
Format: Conference Proceeding
Language:English
Subjects:
Blood
blood typing
complementary split ring resonator
Dielectrics
Microwave measurement
microwave sensing
Microwave theory and techniques
open-ended coaxial probe
Permittivity measurement
Probes
Sensors
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creator Omer, Ala Eldin
Shaker, George
Hughson, Richard
Safavi-Naeini, Safieddin
description This study reports the in-vitro characterization of blood samples based on the dielectric property measurements across the microwave spectrum 2 - 67 GHz using a newly developed commercial coaxial probe kit. This is done for different ABO-Rh types of synthetic blood samples as well as authentic specimens drawn from healthy adult donors. Measured results have indicated an appreciably dielectric contrast between blood samples of various types at certain frequency regions. This phenomenon is also demonstrated by the resonant measurements on a novel developed CSRR-based biosensor in the centimeter-band using two different setups of Vector Network Analyzer and 2.45 GHz radar board.
doi_str_mv 10.1109/BIBE50027.2020.00087
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source IEEE Xplore All Conference Series
subjects Blood
blood typing
complementary split ring resonator
Dielectrics
Microwave measurement
microwave sensing
Microwave theory and techniques
open-ended coaxial probe
Permittivity measurement
Probes
Sensors
title Microwave-based Nondestructive Sensing Approach for Blood Type Identification
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