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Autori principali: Tay, Brandon Kaiheng, Kapoor, Saumitra, Yu, Wenwei, Huang, Shao Ying
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.00920
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author Tay, Brandon Kaiheng
Kapoor, Saumitra
Yu, Wenwei
Huang, Shao Ying
author_facet Tay, Brandon Kaiheng
Kapoor, Saumitra
Yu, Wenwei
Huang, Shao Ying
contents A high-Q sensor integrating microstrip line (MLIN) main field and split ring resonators is presented for non-invasive glucose sensing. The proposed sensor combines the field-focusing effects of split ring resonators with the enhanced field substrate interaction properties of the MLIN main field, using the reflection coefficient (S11) of an open-ended MLIN with the finger as the substrate and operating at 750 MHz and 1.5 GHz. The permittivity of blood inside the finger depends on the glucose concentration, which in turn affects the S11 of the system. Sensor geometry was optimized using Method-of-Moments simulation before the sensor was fabricated and validated on standard solutions of glucose concentrations between 0 to 126 mg/dL within the physiological range, and a human test subject. In both experiments, a near inverse-linear relationship between the S11 peak magnitude and the glucose concentration was observed, demonstrating the sensitivity of the proposed sensor for detecting changes in blood glucose concentration at physiological conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2503_00920
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-Q non-invasive Glucose Sensor using MicrostripLine Main Field and Split Ring Resonator
Tay, Brandon Kaiheng
Kapoor, Saumitra
Yu, Wenwei
Huang, Shao Ying
Medical Physics
Signal Processing
A high-Q sensor integrating microstrip line (MLIN) main field and split ring resonators is presented for non-invasive glucose sensing. The proposed sensor combines the field-focusing effects of split ring resonators with the enhanced field substrate interaction properties of the MLIN main field, using the reflection coefficient (S11) of an open-ended MLIN with the finger as the substrate and operating at 750 MHz and 1.5 GHz. The permittivity of blood inside the finger depends on the glucose concentration, which in turn affects the S11 of the system. Sensor geometry was optimized using Method-of-Moments simulation before the sensor was fabricated and validated on standard solutions of glucose concentrations between 0 to 126 mg/dL within the physiological range, and a human test subject. In both experiments, a near inverse-linear relationship between the S11 peak magnitude and the glucose concentration was observed, demonstrating the sensitivity of the proposed sensor for detecting changes in blood glucose concentration at physiological conditions.
title High-Q non-invasive Glucose Sensor using MicrostripLine Main Field and Split Ring Resonator
topic Medical Physics
Signal Processing
url https://arxiv.org/abs/2503.00920