МОДЕЛИРОВАНИЕ СЛОЖНЫХ АНТЕННЫХ УСТРОЙСТВ НА ОСНОВЕ АППАРАТА ОБОБЩЕННЫХ МАТРИЦ РАССЕЯНИЯ
Работая с нашим сайтом, вы даете свое согласие на использование файлов cookie. Это необходимо для нормального функционирования сайта, показа целевой рекламы и анализа трафика. Статистика использования сайта отправляется в «Яндекс» и «Google»
Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
Online media
issn 2310-6018

THE MODELING OF COMPLEX ANTENNA DEVICES ON THE BASIS OF THE APPARATUS OF THE GENERALIZED SCATTERING MATRIX

Shtefanovich Y.,  Sakharov Y.S. 

UDC 621.396
DOI:

  • Abstract
  • List of references
  • About authors

Currently, the active development of the telecommunication facilities, used by an increasing number of transmitting and receiving devices can be observed. Between nearby objects in space (antennas, metal-dielectric structures) occurs electrodynamic interactions that affect their work. This paper aims to develop methods for the assessment of the characteristics of this interaction. A leading approach to the study of this problem is the use of a method based on generalized scattering matrix. Knowledge of the generalized scattering matrix provides the possibility for calculations of the characteristics of the antenna system, without considering the geometry. By analogy with the use of matrices of two-and multiprobe used in electrical circuits, generalized scattering matrix is carried out to minimize the calculations for the analysis of complex antenna systems. The paper presents the results of modeling of the interaction loop antenna ball, which is formed of a dielectric material. The dispersion characteristics were calculated based on the method of integral equations. On the basis of calculations of the electrodynamic interaction between objects is possible to estimate the influence of the position of the antennas on the level of measured electromagnetic fields. The materials of the article are of practical value to professionals associated with the design of wireless networks indoors.

1. L'vovich Ya. E. Razrabotka sistemy avtomatizirovannogo proektirovaniya besprovodnykh sistem svyazi / Ya. E. L'vovich, I. Ya. L'vovich, A. P. Preobrazhenskiy, S. O. Golovinov // Telekommunikatsii. 2010. No. 11. pp. 2- 6.

2. L'vovich Ya. E. Issledovanie metodov optimizatsii pri proektirovanii sistem radiosvyazi / Ya. E. L'vovich, I. Ya. L'vovich, A. P. Preobrazhenskiy, S. O. Golovinov // Teoriya i tekhnika radiosvyazi. 2011. No. 1. pp. 5-9.

3. Tolstykh S. M. Analytical review of methods of information security in wireless networks / S. M. Tolstykh, A. G. Yurochkin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2017. No. 1(20). pp. 67-69.

4. Choporov O. N. Analiz zatukhaniya radiovoln besprovodnoy svyazi vnutri zdaniy na osnove sravneniya teoreticheskikh i eksperimental'nykh dannykh / O. N. Choporov, A. P. Preobrazhenskiy, A. A. Khromykh // Informatsiya i bezopasnost'. 2013. Vol.16. No. 4. pp. 584-587.

5. L'vovich Ya. E. Issledovanie metoda trassirovki luchey dlya proektirovaniya besprovodnykh sistem svyazi / Ya. E. L'vovich, I. Ya. L'vovich, A. P. Preobrazhenskiy, S. O. Golovinov // Elektromagnitnye volny i elektronnye sistemy. 2012. Vol. 17. No. 1. pp. 32-35.

6. Preobrazhenskiy A. P. SAPR sovremennykh radioelektronnykh ustroystv i sistem / A. P. Preobrazhenskiy, R. P. Yurov // Vestnik Voronezhskogo gosudarstvennogo tekhnicheskogo universiteta. 2006. Vol. 2. No. 3. pp. 35- 37.

7. Alimbekov A. R. Metody opredeleniya rasseivayushchikh svoystv ob"ektov / A. R. Alimbekov, E. A. Avdeenko, V. V. Shevelev // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2017. No. 1 (20). pp. 22-24.

8. Tolstykh S. M. Upravlenie sistemami besprovodnoy svyazi / S. M. Tolstykh, A. G. Yurochkin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2017. No. 2 (21). pp. 83-85

9. Shapaev A. V. Optimizatsiya besprovodnykh sensornykh setey / A. V. Shapaev, A. G. Yurochkin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2017. No. 2 (21). pp. 86-89.

10. Bautin I. A. Modeli rasprostraneniya radiosignala WI-FI / I. A. Bautin, A. G. Yurochkin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2017. No. 2 (21). pp. 107-109.

11. Voronov A. A. Obespechenie sistemy upravleniya riskami pri vozniknovenii ugroz informatsionnoy bezopasnosti / A. A. Voronov, I. Ya. L'vovich, Yu. P. Preobrazhenskiy, V. A. Voronov // Informatsiya i bezopasnost'. 2006. Vol. 9. No. 2. pp. 8-11.

12. L'vovich Ya. E. Issledovanie metoda trassirovki luchey pri proektirovanii besprovodnykh sistem svyazi / Ya. E. L'vovich, I. Ya. L'vovich, A. P. Preobrazhenskiy, S. O. Golovinov // Informatsionnye tekhnologii. 2011. No. 8. pp. 40-42.

Shtefanovich Yuri

Email: juraj.stefanovic@paneurouni.com

Pan-European University

Bratislava, Russian Federation

Sakharov Yuri Serafimovich

Email: yurijsaharov@yandex.ru

State University «Dubna»

Moscow, Russian Federation

Keywords: telecommunication, simulation, scattering of radio waves, scattering matrix, antenna

For citation: Shtefanovich Y., Sakharov Y.S. THE MODELING OF COMPLEX ANTENNA DEVICES ON THE BASIS OF THE APPARATUS OF THE GENERALIZED SCATTERING MATRIX. Modeling, Optimization and Information Technology. 2017;5(4). URL: https://moit.vivt.ru/wp-content/uploads/2017/10/ShtefanovichSakharov_4_1_17.pdf DOI: (In Russ).

480

Full text in PDF

Published 31.12.2017