Permittivity measurement of biological tissues using interdigital capacitor based resonator
A CPW resonator etched on the central conductor is presented to measure the complex permittivity of biological tissues. In the unloaded condition, the proposed structure works as a resonator with a resonant frequency of 5.625 GHz. The proposed sensor is able to cover a wide range of permittivity mea...
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Published in | International journal of electronics and communications Vol. 169; p. 154755 |
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Main Authors | , |
Format | Journal Article |
Language | English |
Published |
Elsevier GmbH
01.09.2023
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Subjects | |
Online Access | Get full text |
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Summary: | A CPW resonator etched on the central conductor is presented to measure the complex permittivity of biological tissues. In the unloaded condition, the proposed structure works as a resonator with a resonant frequency of 5.625 GHz. The proposed sensor is able to cover a wide range of permittivity measurement from approximately 5 (fat tissue) to 70 (malignant tissue) with sensitivity of 4.01 % and FDR( Frequency Detection Resolution) of 270 MHz . Breast phantoms with high fidelity need to be fabricated to imitate the various layers of the breast like skin, fat, glandular tissue, and tumor tissue regarding permittivity with different chemicals in different proportions. The major challenge in fabricating such phantoms is in creating an appropriate combination of substances to get the required characteristics for these biological tissues. A sample of various tissue types was fabricated using Gelatin and safflower-based recipes. The complex permittivity tissue phantoms are measured using a fabricated resonator. The measured dielectric characteristics of biological tissues are in good agreement with the theoretical values from the database.
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•A highly sensitive CPW resonator is designed and tested successfully.•It is used to measure the complicated permittivity of biological tissues.•Improved recipe for various biological tissues has been formulated.•Proposed sensor is extremely sensitive to dielectric changes with sensitivity of 4.01%.•The FDR (Frequency Detection Resolution) for the proposed sensor is 270 MHz.•Proposed sensor can measure permittivity range from 5 to 70. |
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ISSN: | 1434-8411 1618-0399 |
DOI: | 10.1016/j.aeue.2023.154755 |