Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
cетевое издание
issn 2310-6018

THE ANALYSIS OF RADIO WAVE PROPAGATION THROUGH VEGETATION COVER

Danilova A.V.   Yurochkin A.G.  

UDC 621.396
DOI:

  • Abstract
  • List of references
  • About authors

In this paper we considered the questions associated with the spreading of radio waves through the vegetation cover

1. Sommerfeld A. "Über die Ausbreiting electromagnetischer Wellen in der drahtlosen Télégraphié? "// Ann. Phys., Bd. 28, 1909. S. 665-736.

2. Weyl H. "Ausbreitung elektromagnetischer Wellen über einem ebenen Leiter "// Ann.Phys. Bd. 60, 1919, S. 481-500.

3. Makarov G.I., Novikov V.V., Rybachek S.T. Radio wave propagation in the waveguide channel of the earth-ionosphere and in the ionosphere. M., ed. Science, 1993, p. 147.

4. Zennek J. "Über die Fortflanzung ebener elektromagnetischer Wellen längs einer ebenen Leitlläche und ihre Beziehung zur drahtlosen Télégraphié? "// Ann.Phys .., Bd. 23, 1907, S. 846-866.

5. Barfield R.H. "The atténuation on wireless waves over Iand" Journal I.E.E., vol. 66, 1926, p. 204-218.

6. Preobrazhensky A.P. Analysis Modeling and Algorithmization diffraction structures in CAD radar antennas / Voronezh, 2007. Scientific Book Publishing House. - 248 p.

7. Choporov O.N., Preobrazhensky A.P., Khromykh A.A. Attenuation analysis comparison-based wireless radio waves in buildings theoretical and experimental data / Information and safety. 2013.V. 16. No. 4. P. 584-587.

8. Lvovich Ya.E., Lvovich I.Ya., Preobrazhensky A.P. Problem solving estimates of the scattering characteristics of electromagnetic waves on diffraction structures during their design / Bulletin Voronezh Institute of High Technologies. 2010. No. 6. S. 255-256.

9. Lvovich I.Ya., Preobrazhensky A.P., Rodionova K.Yu. Development CAD subsystems for designing medium performance scattering of objects / basic research. - 2013. No. 4-4. WITH. 823-826.

10. Lvovich I.Ya., Preobrazhensky A.P., Yurov R.P., Choporov O.N. Software package for automated analysis scattering characteristics of objects using mathematical models / Control systems and information technology. 2006. No. 2 (24). S. 96-98.

11. Preobrazhensky A.P. On the possibilities of speeding up computations for problem solving / Bulletin of the Voronezh Institute of High Technologies. 2014. No. 12. P. 67-68.

12. Preobrazhensky A.P. On the application of combined approaches for assessment of the scattering characteristics of objects / Bulletin of Voronezh Institute of High Technologies. 2014. No. 12. P. 69-70.

13. Preobrazhensky A. P. On the evaluation of the characteristics of wireless communication in premises / Bulletin of the Voronezh Institute of High Technologies. 2014. No 13. S. 40-41.

14. Zhulyabin D.Yu. Evaluation and suppression of impulse noise in OFDM / Bulletin of the Voronezh Institute of High Technologies. 2014. No 12. S. 73-80.

15. Saprykin A.A. Characteristics of high-frequency MESH networks / Bulletin of the Voronezh Institute of High Technologies. 2014. No 12. S. 116-118.

16. Morgunov V.S. Modern propagation calculation methods indoor radio signals / Bulletin of the Voronezh Institute high tech. 2014. No. 12. P. 136-139.

17. Danilova A. V., Yurochkin A. G. Characteristics of trace methods rays / Bulletin of the Voronezh Institute of High Technologies. 2014. № 13. S. 27-29.

18. Danilova A. V., Yurochkin A. G. Possibilities of use impedance structures for antenna radiation control / Bulletin Voronezh Institute of High Technologies. 2014. No. 13. S. 30-33.

19. Preobrazhensky A. P. On the possibility of constructing objects with given requirements for the dispersion characteristics / Bulletin Voronezh Institute of High Technologies. 2014. No 13. S. 38-39.

20. Boluchevskaya O.A., Gorbenko O.N. Valuation Method Properties scattering characteristics of electromagnetic waves / Modeling, optimization and information technology. 2013. No. 3. P. 4.

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

22. Miloshenko O. V., Golovin A. A. On the design of antennas based on planar dielectric waveguides / Bulletin of Voronezh Institute of High Technologies. 2014. No 13. S. 42-44.

23. Sekushina S. A., Saprykin A. A. Characteristics of the methods design of electronic devices / Bulletin of Voronezh Institute of High Technologies. 2014. No 13. S. 96-98.

24. Sekushina S.A., Saprykin A.A., Abbas Jassem Hussei. Capabilities studies of the scattering characteristics of objects based on the method finite differences / Bulletin of the Voronezh Institute of High technology. 2014. No 13. S. 99-101.

25. Danilova A. V., Yurochkin A. G. Characteristics of trace methods rays / Bulletin of the Voronezh Institute of High Technologies. 2014. № 13. S. 113-115.

26. Blokhina T.V., Abbas D.Kh. Parameter Definition Capabilities objects based on the calculation and experimental approach / Bulletin Voronezh Institute of High Technologies. 2014. No. 12. P. 39-42.

27. Blokhina TV, Anderson D. Prediction of scattering characteristics of electromagnetic waves for a tetrahedron / Bulletin of Voronezh Institute of High Technologies. 2014. No. 12. P. 43-46.

28. Blokhina TV, Ruzhitski E. Research of electromagnetic scattering waves at the facility subject to interference / Bulletin of the Voronezh Institute high tech. 2014. No. 12. P. 47-50.

29. Pronskikh N.I. The use of heuristic methods in solving problems scattering of electromagnetic waves / Bulletin of the Voronezh Institute high tech. 2014. No. 12. P. 51-53.

30. Preobrazhensky A.P. On the application of the calculation and experimental approach to study the propagation of WIFI waves inside premises / Bulletin of the Voronezh Institute of High Technologies. 2014. No. 12. P. 71-72.

31. Ryuchin A.S. On the use of radar absorbing materials // Bulletin Voronezh Institute of High Technologies, 2013. - No. 10. - P. 185- 188.

32. Lutsenko E. V. Application of SK-analysis and the "EIDOS" system for synthesis of the cognitive matrix transfer function of a complex empirical data-based control facility / Scientific journal Kuban State Agrarian University, No. 75 (01), 2012.

Danilova Alexandera Viktorovna

Email: danilova_av@yandex.ru

JSC "Concern "Sozvezdie"

Voronezh, Russian Federation

Yurochkin Alexander Gennadievich
Doctor of Technical Sciences Professor

The Voronezh branch of the Russian Academy state service under the President of the Russian Federation

Voronezh, Russian Federation

Keywords: propagation, diffraction, communication, modeling

For citation: Danilova A.V. Yurochkin A.G. THE ANALYSIS OF RADIO WAVE PROPAGATION THROUGH VEGETATION COVER. Modeling, Optimization and Information Technology. 2014;2(4). Available from: https://moit.vivt.ru/wp-content/uploads/2015/01/DanilovaUrochkin_4_14_1.pdf DOI: (In Russ).

87

Full text in PDF