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Journal Electromagnetic Waves and Electronic Systems №3 for 2014 г.
Article in number:
Theoretical and experimental research on plane wave diffraction by a perfectly conducting circular cylinder with holographic subsurface radar RASCAN
Authors:
I.A. Vasiliev - Ph. D. (Eng.), Leading Research Scientist, Bauman Moscow State Technical University. E-mail: ivasiliev@rslab.ru
A.V. Zhuravlev - Ph. D. (Phys.-Math.), Senior Research Scientist, Bauman Moscow State Technical University. E-mail: azhuravlev@rslab.ru
S.I. Ivashov - Ph. D. (Eng.), Head of Laboratory, Bauman Moscow State Technical University. E-mail: sivashov@rslab.ru
V.V. Razevig - Senior Research Scientist, Bauman Moscow State Technical University. E-mail: vrazevig@rslab.ru
M.A. Chizh - student, Trainee-researcher, Bauman Moscow State Technical University. E-mail: ritchi11@yandex.ru
Abstract:
Theoretical and experimental results on electromagnetic wave diffraction by a conducting circular cylinder are presented for two polarizations. The theoretical part of research is presented by calculations based on classical model of scattering by conducting circular cylinder without an asymptotic solution. Experimental research was conducted in air and concrete. The first stage of research happened in air with the standard RASCAN radar antenna and a vector network analyzer. The second stage was conducted with the holographic radar RASCAN itself. At this the object of interest was scanned in air in concrete. The obtained holograms were processed by the standard signal processing package of RASCAN based on aperture plane wave decomposition and the inverse Fourier transform. On the basis of obtained results it was inferred that phase center displacement exists for a circular cylinder on two orthogonal polarizations. Possibility of measuring the depth and diameter of an armature bar in concrete was shown to exist for the radar RASCAN.
Pages: 42-48
References

  1. Razevig V.V., Bugaev A.S., Vasil'ev I.A., ZHuravlev A.V., Ivashov S.I. Vliyanie shiriny' polosy' chastot na kachestvo vosstanovleniya podpoverxnostny'x radiogologramm. // Uspexi sovremennoj radioe'lektroniki. 2012. № 3. S. 3−18.
  2. Cornel Eftimiu. Electromagnetic scattering by rough conducting circular cylinders // Radio Science. V. 23. № 5. P. 760−768. Sept−Oct 1988.
  3. Schmidt K.E.. Scattering at Normal Incidence from an Infinite Perfectly Conducting Circular Cylinder. PHY531−PHY532 Classical Electrodynamics. 2001.
  4. Borghi R., Gori F., Santarsiero M., Frezza F., Schettini G. Plane-wave scattering by a perfectly conducting circular cylinder near a plane surface: cylindrical-wave approach // J. Optical Society of America. March 1996. V. 13. № 3.
  5. Stanley J. Radzevicius, Jeffrey J. Daniels. Ground penetrating radar polarization and scattering from cylinders // J. of Applied Geophysics. 2000. № 45. P. 111−125.
  6. Shaw M.R., Millard S.G., Molyneaux T.C.K., Taylor M.J. Location of steel reinforcement in concrete using ground penetrating radar and neural networks // NDT & E International. 2005. V. 38. № 3. P. 203−212.
  7. de Alcantara Jr.N.P., Gaspsrini M.E.L. Steel bars identification in reinforced concrete structures by using ANN and magnetic fields. Progress in Electromagnetics research Symposium 2005. Hangzhou. China. August 22−26.
  8. Potexin A.I.. Nekotory'e zadachi difrakczii e'lektromagnitny'x voln. M.: Sov. radio. 1948.
  9. Nikol'skij V.V., Nikol'skaya T.I. E'lektrodinamika i rasprostranenie radiovoln: Ucheb. posobie dlya vuzov. M.: Nauka. 1989.
  10. V.V. Razevig, A.S. Bugaev, S.I. Ivashov, I.A. Vasil'ev, A.V. ZHuravlev, T. Biktel, L. Kapineri. E'ksperimental'naya oczenka parametrov golograficheskix podpoverxnostny'x radiolokatorov v sravnenii s opticheskoj golografiej // Radiotexnika. 2010. № 9. S. 63−70.