МЕТОДЫ ПРОГНОЗИРОВАНИЯ ХАРАКТЕРИСТИК РАССЕЯНИЯ ЭЛЕКТРОМАГНИТНЫХ ВОЛН
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 METHODS OF PREDICTING THE CHARACTERISTICS OF SCATTERING OF ELECTROMAGNETIC WAVES

Preobrazhensky A.P.  

UDC 621.396
DOI:

  • Abstract
  • List of references
  • About authors

The methods are discussed that can be used in predicting of the characteristics of scattering of electromagnetic waves. Their particularities are marked

1. Rickets L.U., Bridges J.E. Maylette J. Electromagnetic Impulse and methods of protection: Per. from English / Ed. ON THE. Ukhina. - M .: Atomizdat, 1979, 327 pp.

2. Nikolsky V.V. Electrodynamics and radio wave propagation / V.V.Nikolsky. - M .: Nauka, 1978.- 543 p.

3. Vaganov RB, Katsenelenbaum B.Z. Fundamentals of the theory of diffraction M .: Science 1982, 272s

4. Ten T.L., Kogai G.D., Drozd V.G., Zholdangarova G.I. Prediction of financial stability of the enterprise in the environment "Stata" / International journal of applied and fundamental research, No. 1, 2014, p. 270-275. (http://www.rae.ru/upfs/pdf/2014/1-2/4669.pdf)

5. Svetov B.S., Gubatenko V.P. Analytical Solutions electrodynamic problems - M .: Nauka, 1988 .-- 344 p.

6. Bashkatov A.V., Chekmarev R.S. Process modeling scattering of UWB signals at objects / Bulletin of Voronezh Institute of High Technologies, 2013, No. 11, pp. 4-7.

7. Golovin A.A., Rodionova K.Yu. Iterative method for solving scattering problems of electromagnetic waves on a rectangular parallelepiped / Bulletin of the Voronezh Institute of High Technologies, 2013, No. 11, pp. 30-34.

8. Bashkatov A.V., Chekmarev R.S. Opportunity analysis determining the shape of an object based on information about restored local sources / Bulletin of Voronezh Institute of High Technologies, 2013, No. 11, p. 35-39.

9. Verchenko G.I. The synthesis of antenna and diffraction structures / Bulletin of the Voronezh Institute of High Technologies, 2013, No. 11, pp. 100-102.

10. Golovinov S.O., Khromykh A.A. Systems Management Issues Mobile Communications / Bulletin of the Voronezh Institute of High Technologies, 2012, No. 9, pp. 13-14.

11. Miloshenko OV Methods for assessing propagation characteristics radio waves in mobile radio communication systems / Bulletin Voronezh Institute of High Technologies, 2012, No. 9, pp. 60-62.

12. Golovinov S.O. Search for base station locations wireless communication systems in urban areas with application of the genetic algorithm / Bulletin of Voronezh Institute of High Technologies, 2012, No. 9, p.197-202.

13. Verchenko G.I. Characteristics of antenna arrays / Bulletin Voronezh Institute of High Technologies, 2013, No. 11, p.103- 105.

14. Erasov S.V. Optimization processes in electrodynamic tasks / Bulletin of the Voronezh Institute of High Technologies, 2013, No. 10, pp. 20-26.

15. Martemyanov, Yu.F. Lazarev. T.Ya. Expert Acceptance Techniques solutions: textbook. allowance / Tambov: Publishing house of Tamb. state tech. University 2010 .-- 80 s.

16. Lagutin MB Visual mathematical statistics. 2nd ed., corrected - M .: 2009.- 472 s

17. Spodobaev Yu.M., Kubanov V.P. Electromagnetic basics ecology. - M .: Radio and communications, 2000. - 240 p.

18. Circle P.G. Neural Networks and Neurocomputers: A Tutorial at the course "Microprocessors". - M.: Publishing House MPEI, 2002. - 176 p.

19. Slyusar V. Synthesis of antennas based on genetic algorithms / The First Mile, 2008, No. 6, pp. 16-23.

20. Lvovich Ya.E. Multi-alternative optimization: theory and Applications - Voronezh, 2006, Quarta Publishing House, 415 pp.

21. Mishchenko V.A., Korobkin A.A. The use of genetic algorithms in the training of neural networks (http://www.scienceeducation.ru/pdf/2011/6/mischenko.pdf)

22. Akhrem A. A., Ashinyants M. R., Petrov S. A. Fuzzy logical conclusion in the decision-making system. Proceedings of ISA RAS, 2007. V. 29, c. 265-275.

23. Kofman A. Introduction to the theory of fuzzy sets. - M .: Radio and Communication, 1982, 232 p.

Preobrazhensky Andrei Petrovich
Candidate of Technical Sciences, Associate Professor
Email: app@vivt.ru

Voronezh Institute of High Technologies

Voronezh, Russian Federation

Keywords: electromagnetic wave, predicting, methods, algorithms

For citation: Preobrazhensky A.P. THE METHODS OF PREDICTING THE CHARACTERISTICS OF SCATTERING OF ELECTROMAGNETIC WAVES. Modeling, Optimization and Information Technology. 2014;2(1). URL: https://moit.vivt.ru/wp-content/uploads/2014/03/Preobrazhenskiy_1_14_1.pdf DOI: (In Russ).

449

Full text in PDF

Published 31.03.2014