Please use this identifier to cite or link to this item: https://dspace.mnau.edu.ua/jspui/handle/123456789/12502
Title: Development of a Model of Cell Functioning to Measure the Interaction of Low-Energy EMF
Authors: Вахоніна, Лариса Володимирівна
Vakhonina, Larisa
Мардзявко, Віталій Анатолійович
Mardziavko, Vitalii
Руденко, Андрій Юрійович
Rudenko, Andrii
Kundenko, Mykolaya
Chaly, Igor
Megel, Yurya
Keywords: biological membranes
cell functioning
dissipation
extremely high frequencies
fractal properties
low-energy electromagnetic field
memory in a system
nonlinear oscillatory system
engineering controlled terms
agriculture
cells
cytology
electric loads
fractals
membranes
cell functioning
cell-based
dissipation
external electromagnetic field
extremely high frequencies
fractal properties
low-energy electromagnetic field
lower energies
memory in a system
nonlinear oscillatory systems
engineering main heading
electromagnetic fields
Issue Date: 2022
Publisher: Mykolayiv National Agrarian University
State Biotechnological University
Citation: Kundenko, M., Chaly, I., Vakhonina, L., Megel, Y., Rudenko, A., & Mardziavko, V. (2022). Development of a model of cell functioning to measure the interaction of low-energy EMF. Paper presented at the 32nd International Scientific Symposium Metrology and Metrology Assurance, MMA 2022, doi:10.1109/MMA55579.2022.9993093
Abstract: In this work, we carry out a study of the functioning of a cell, based on models, taking into account the encounter at its low-energy electromagnetic field, using the acceleration of the development of stimulating technologies to increase the productivity of agricultural production. And the following is considering the simplest circuit, which is a generator that creates a current pulse that flows through the fractal load and forms a voltage drop across it. As a result, current oscillations in a circuit with a fractal membrane as a load and an external harmonic driving force, which simulates an external electromagnetic field, were considered. The equation of the current through a fractal membrane was derived, taking into account elementary phenomenological considerations, which make it possible to obtain a generalization of Ohm for biological membranes, taking into account their frontality. A model has also been derived to describe the fractal properties of the cell membrane during active transport through it, that is, the effect of a low-energy electromagnetic field. Thus, the effect of an external electromagnetic field on the interaction of neurons was theoretically investigated and the possibility of the appearance of chaotic impulse channels of short duration τT was established.
Description: Повний текст статті достцпний з сайту видавця за посиланням https://ieeexplore.ieee.org/document/9993093
URI: https://dspace.mnau.edu.ua/jspui/handle/123456789/12502
Appears in Collections:Публікації науково-педагогічних працівників МНАУ у БД Scopus
Публікації науково-педагогічних працівників МНАУ у БД Web of Science
Статті (Інженерно-енергетичний факультет)

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