Your search keyword '"Gorst, Aleksandr"' showing total 2 results

1. Theoretical Simulation of the Near-Field Probe for Non-Invasive Measurements on Planar Layers with Biological Characteristics.

Author

Gorst, Aleksandr, Zavyalova, Kseniya, Yakubov, Vladimir, Mironchev, Aleksandr, and Zapasnoy, Andrey

Subjects

*ELECTROMAGNETIC interactions, *ELECTROMAGNETIC measurements, *TISSUES, *BLOOD sugar measurement, *ELECTROMAGNETIC fields, *COMPUTER engineering

Abstract

The article presents the design of the near-field probe, which is a combined emitter (a combination of a symmetric dipole and an annular frame). The design of the probe allows forming a prolonged zone of the near-field. This effect can be used for in-depth penetration of the field in media with high absorption, without loss of information. Particular attention in this article is given to a detailed study of the interaction of the field created by this probe on plane-layered biological media. A theoretical analysis of the interaction of the electromagnetic field was carried out in a wide frequency band with a model plane-layer biological medium containing blood vessels of shallow depth using the proposed probe design. Conclusions are drawn about the depth of penetration of a useful signal into different media-analogs of biological tissue. This study is necessary to consider the possibility of using this probe for non-invasive measurements of blood glucose concentration. The studies were carried out using numerical simulation in the CST (Computer Simulation Technology) Microwave Studio environment. All biological tissues were simulated over a wide frequency range from 10 MHz to 10 GHz. [ABSTRACT FROM AUTHOR]

Published

2020

2. Non-Invasive Determination of Glucose Concentration Using a Near-Field Sensor.

Author

Gorst, Aleksandr, Zavyalova, Kseniya, and Mironchev, Aleksandr

Subjects

GLUCOSE analysis, BLOOD sugar measurement, GLUCOSE, SLOT antennas, DETECTORS, ELECTROMAGNETIC waves, INTELLIGENT buildings

Abstract

The article presents a model of a near-field sensor for non-invasive glucose monitoring. The sensor has a specific design and forms a rather extended near-field. Due to this, the high penetration of electromagnetic waves into highly absorbing media (biologic media) is achieved. It represents a combined slot antenna based on a flexible RO3003 substrate. Moreover, it is small and rather flat (25 mm in diameter, 0.76 mm thick). These circumstances are the distinguishing features of this sensor in comparison with microwave sensors of other designs. The article presents the results of numerical modeling and experimental verification of a near-field sensor. Furthermore, a phantom of human biological media (human hand) was created for experimentation. In the case of numerical modeling, the sensor is located close to the hand model. In a full-scale experiment, it is located close to the phantom of the human hand for the maximum interaction of the near-field with biological materials. As a result of a series of measurements for this sensor, the reflection coefficient is measured, and the dependences of the reflected signal on the frequency are plotted. According to the results of the experiments carried out, there is a clear difference in glucose concentrations. At the same time, the accuracy of determining the difference in glucose concentrations is high. The values of the amplitude of the reflected signal with a change in concentration differ by 0.5–0.8 dB. This sensor can be used for developing a non-invasive blood glucose measurement procedure. [ABSTRACT FROM AUTHOR]

Published

2021