МЕТОД ИНТЕГРАЛЬНЫХ УРАВНЕНИЙ КАК ОСНОВНОЙ СПОСОБ АНАЛИЗА В САПР АНТЕНН
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Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
Online media
issn 2310-6018

THE POSSIBILITY OF USING THE METHOD OF INTEGRAL EQUATIONS AS THE BASIC APPROACH IN CAD SYSTEMS ANTENNAS

Shcherbatykh S.S. 

UDC 621.396
DOI:

  • Abstract
  • List of references
  • About authors

The paper discusses the features of the method of integral equations on the basis of which it is expedient to conduct electrodynamic modelling of diffractive structures that are part of antenna-feeder devices. The criteria are specified on which to evaluate the effectiveness of the methods used. The advantages of the method of integral equations for analysis of objects with complex shapes are given. The advantages of using the method of integral equations for the design of magneto-dielectric antennas are considered.

1. Vaganov R. B., Katsenelenbaum B. Z. Fundamentals of the theory of diffraction / M.: Science, 1982. - 272 p.

2. Kobak V. O. Radar reflectors / M.: Sov. radio, 1972. - 248 p.

3. Gordievskaya K.Yu. On the finite difference method in time Oblasts / International Student Scientific Bulletin. 2015. № 3-3. S. 363-364.

4. Shutov G.V. Propagation issues through plant Veil / International Student Scientific Bulletin. 2015. № 3-3. S. 384-385.

5. Volman V.I., Pimenov Yu.V. Technical electrodynamics / M .: Communication, 1971. - 487 p.

6. Lebedev I.V. Technique and devices microwave / M .: Higher school, 1970. - T. 1.- 439 s.

7. Vasiliev E. N. Excitation of bodies of revolution / M.: Radio and communication, 1987. - 270 p.

8. Kulneva E.Yu. About using impedance structures for radiation control antennas / International Student scientific bulletin. 2015. No. 3-3. S. 369.

9. Kulneva E.Yu. Design Considerations for Antennas Based planar dielectric waveguides / International student science newsletter. 2015. No. 3-3. S. 369-370.

10. Rozhkova A.A. Problems of scattering of electromagnetic waves by bodies magneto-dielectric coating / International student science newsletter. 2015. No. 3-3. S. 378-379.

11. Ashikhmin A.V., Pasternak Yu.G., Rembovsky Yu.A. Modeling "virtual" antenna array of a mobile direction finder with using data from field measurements of electromagnetic Fields / Management systems and information technology. 2007. T. 27. No. 1.3. S. 313-317.

12. Pasternak Yu.G., Rembovsky Yu.A. Field structure in the field location of the mobile-based ring antenna array / Antennas. 2007. No. 1. S. 30-34.

13. Klimov A.I., Merkulov KB, Ostankov A.V., Pasternak Yu.G., Yudin IN AND. Experimental studies of antenna characteristics combs with two grooves and with a dielectric layer / Instruments and experimental technique. 1999.V. 42. No. 4. P. 113-116.

14. Ashikhmin A.V., Pasternak Yu.G., Popov I.V., Rembovsky Yu.A. Amplitude-phase direction finding of sources of microwave radiation with arbitrary polarization using a ring antenna array FROM THEM horns and Vivaldi antennas / Antennas. 2008. No. 3. P. 44-49.

15. Ashikhmin A.V., Pasternak Yu.G., Rembovsky Yu.A. Study opportunities to improve precision and energy characteristics of mobile direction finders by optimizing structure and parameters of their antenna systems / Control systems and information Technology. 2007.V. 28. No. 2.1. S. 113-118.

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

17. Kosilov A.T. Methods for calculating radar characteristics objects / A.T. Kosilov, A.P. Preobrazhensky // Bulletin Voronezh State Technical University. 2005. T. 1. No. 8. S. 68-71.

18. Preobrazhensky A.P. Assessment of the combined methods for calculating the EPR of two-dimensional ideally conducting cavities / A.P. Preobrazhensky // Telecommunications. 2003. No. 11. S. 37-40.

19. Lvovich I.Ya. Information and software development CAD systems for diffraction structures and radar antennas / I.Ya. Lvovich, A.P. Preobrazhensky // Bulletin Voronezh State Technical University. 2006. T. 2. No. 12. P. 63-68.

Shcherbatykh Semen Sergeevich

Email: ss-sherbatikh@mail.ru

Voronezh Institute of High Technologies

Voronezh, Russian Federation

Keywords: electromagnetic wave propagation, antennas, method of integral equations, information technology

For citation: Shcherbatykh S.S. THE POSSIBILITY OF USING THE METHOD OF INTEGRAL EQUATIONS AS THE BASIC APPROACH IN CAD SYSTEMS ANTENNAS. Modeling, Optimization and Information Technology. 2016;4(1). URL: https://moit.vivt.ru/wp-content/uploads/2016/02/Scherbatyh_1_16_1.pdf DOI: (In Russ).

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Published 31.03.2016