Zhurnal Radioelektroniki - Journal of Radio Electronics. eISSN 1684-1719. 2023. №1
ContentsFull text in Russian (pdf)
DOI: https://doi.org/10.30898/1684-1719.2023.1.6
DEVELOPMENT OF A COMMUNICATION SYSTEM BASED ON THE TRANSMISSION OF INFORMATION DUE TO THE MAGNETIC COMPONENT OF THE ELECTROMAGNETIC FIELD
A.Yu. Grishentsev, V.A. Goroshkov, R.I. Chernov
ITMO University, 197101, Russia, St. Petersburg, Kronverksky ave., 49, lit. A.
The paper was received November, 1, 2022
Abstract. A communication system based on the transmission of information due to the magnetic component of the electromagnetic field has been developed. The review of the subject area and prerequisites for the creation of a magnetic communication system is carried out. The purpose and objectives of the study are formulated. The purpose of the study: to develop a communication system that provides a wireless channel for transmitting information through the thickness of conductive matter. The relevance of the research is justified by the need to provide wireless communication through the thickness of the conductive medium in local execution conditions with limited radiation power. A general concept of the communication system has been developed, as well as its constituent elements: a magnetic field sensor, a magnetic emitter, a modulation method, and a message transmission protocol. A prototype of a magnetic communication system has been manufactured. Subject of research: wireless transmission of information due to the magnetic component of the electromagnetic field. Object of research: information transmission system. Methodology: a set of methods and tools for the development of elements and nodes of wireless communication in relation to the information transmission system due to the magnetic component of the electromagnetic field. The main result: a wireless communication system has been developed using a magnetic component of an electromagnetic field. Practical significance: the results of the research can be useful for automation and telecommunications systems, the organization of wireless communication through environments with significant electromagnetic wave absorption.
Key words: magnetic communication system, magnetic field, development and design.
Financing: This work was supported by the Ministry of Science and Higher Education of Russian Federation, passport of goszadanie no. 2019-0898.
Corresponding author: Alexey Yu. Grishentsev, agrishentsev@yandex.ru
References
1. Demirchan K.S., Neiman L.R., Korovkin N.V., Chechurin V.L. Teoreticheskie osnovy ehlektrotekhniki T.4 [Theoretical foundations of electrical engineering V.4]. Saint Petersburg, Piter. 2006. 377 p. (In Russian)
2. Kalantarov P.L., Tseitlin L.A., Raschet induktivnostei [Calculation of inductances] Leningrad, Ehnergoatomizdat. 1986. 488 p. (In Russian)
3. Landau L.D., Lifshits E.M. Teoreticheskaya fizika. T.VIII. Ehlektrodinamika sploshnykh sred [Theoretical physics. V.VIII. Electrodynamics of continuous media.] 4 ed. Moscow, Fizmatlit. 2005. 656 p. (In Russian)
4. Irodov I.E. Ehlektromagnetizm. Osnovnye zakony [Electromagnetism. Basic Laws] 5 ed. Moscow, Binom, Laboratoriya znanii. 2006. 319 p. (In Russian)
5. Yakovlev O.I., Yakubov V.P., Uryadov V.P., Pavel'ev A.G. Rasprostranenie radiovoln [Propagation of radio waves]. Moscow, LENAND. 2009. 496 p. (In Russian)
6. Kalinin A.I., Cherenkova E.L. Rasprostranenie radiovoln i rabota radiolinii [Propagation of radio waves and operation of radio links]. Moscow, Svyaz'. 1971. 440 p. (In Russian)
7. Boll Styuart R. Analogovye interfeisy mikrokontrollerov [Analog interfaces of microcontrollers]. Moscow, I.D. «Dodehka-XXI». 2007. 360 p. (In Russian)
8. Grishentsev A.Yu., Korobeinikov A.G., Goroshkov V.A., Chernov R.I., Tikhomirov A.V., Kozin O.V. Development and modeling of a magneto-optical magnetic field gradient sensor with a torsion suspension of the sensor element. Zhurnal radioelektroniki [Journal of Radio Electronics] [online]. 2021. №11. https://doi.org/10.30898/1684-1719.2021.11.4 (In Russian)
9. CCD Linear Image Sensor TCD1304DG [web] Toshiba electronic devices & storage corporation. Date of access: 27.10.2022. URL: https://toshiba.semicon-storage.com/eu/semiconductor/product/linear-image-sensors/detail.TCD1304DG.html
10. Perov N.S., Granovskii S.A., Strelkov N.V., Shapaeva T.B., Makarova L.A., Shapaev B.A. Izuchenie postoyannogo magnitnogo polya. Chislennoe modelirovanie i ehksperiment [Study of a constant magnetic field. Numerical simulation and experiment]. Moscow, izd-vo: MGU. 2017. 23 p. (In Russian)
11. MatLab [web] The MathWorks, Inc. Date of access: 27.10.2022. URL: https://www.mathworks.com/products/matlab.html
12. Rotkhammel' K., Krishke A. Ehntsiklopediya antenn [Encyclopedia of Antennas]. Moscow, DMK Press. 2016. 812 p. (In Russian)
13. Zakharov V.Z., Levchuk P.F., Murav'ev YU.K., Slyusarev P.V., Serkov V.P., Spiridonova M.V. Kharakteristiki antenn dlya radiosvyazi [Characteristics of radio antennas]. Leningrad, Tipografiya VKAS. 1967. 130 p. (In Russian)
14. Bobkov A.M. Magnitnoe pole. Magnitnye priemnye antenny [A magnetic field. Magnetic receiving antennas]. Saint Petersburg, OOO «KSI-PrinT». 2019. 256 p. (In Russian)
15. Sklyar B. Tsifrovaya svyaz'. Teoreticheskie osnovy i prakticheskoe primenenie [Digital communication. Theoretical foundations and practical application] 2 ed. Moscow, OOO «I.D. Vil'yams». 2017. 1100 p.
16. Polonnikov R.I. Osnovnye kontseptsii obshchei teorii informatsii [Basic concepts of general information theory]. Saint Petersburg, Nauka. 2006. 204 p. (In Russian)
17. World Magnetic Model 2020 Calculator [web] Geomagnetism British Geological Survey. Date of access: 27.10.2022. URL: http://www.geomag.bgs.ac.uk/data_service/models_compass/wmm_calc.html
18. Goldsmit A. Wireless communications. Cambridge University Press. 2005. 644 p.
19. Proakis John G. Digital communications. 4ed. Solutions. New York, McGraw-Hill. 1995. 916 p.
For citation:
Grishentsev A.Yu., Goroshkov V.A., Chernov R.I. Development of a communication system based on the transmission of information due to the magnetic component of the electromagnetic field. Zhurnal radioelektroniki [Journal of Radio Electronics] [online]. 2023. №1. https://doi.org/10.30898/1684-1719.2023.1.6 (In Russian)