МОДЕЛИРОВАНИЕ ПРОЦЕССОВ ОБНАРУЖЕНИЯ ОРУЖИЯ НА ТЕЛЕ ЧЕЛОВЕКА ПРИ ЕГО ИМПУЛЬСНОМ ОБЛУЧЕНИИ
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 THE DETECTION OF WEAPONS ON THE HUMAN BODY BY PULSED IRRADIATION

Romanchuk D.A.   Maksimova A.A.  

UDC 621.396
DOI:

  • Abstract
  • List of references
  • About authors

The possibilities of detection and identification of metal items and especially weapons, with the size of the order of one to two decimeters, which are hidden on human body, based on the use of phased array antenna, which includes ultra-wideband transceivers are considered. Through the use of UWB-signals the excitation of oscillations at the resonant frequencies, and especially at the main resonance, that defines a clear object selection. Broadband irradiation object of microwave signal in the corresponding frequency range is several hundred MHz, leads to the occurrence of low-frequency resonances and delay response for the receiver when using phased arrays for imaging radio images. Further processing of the reflected signal includes the classification of a hidden object based on the respective resonance frequencies, which allows to distinguish the guns and knives from useful items such as mobile phones and cameras

1. Appleby R. Millimeter-wave and submilimeter-wave imaging for security surveillance / R.Appleby R. N. Anderton // Proceedings of the IEEE, 2007, Vol. 95, No. 2, pp.1683-1690.

2. http://www.researchandmarkets.com/reports/2719734/handbook_of_terah ertz_technology_for_imaging.pdf

3. http://www.metaldetector.com/

4. Maksimova A. A. Metody issledovaniya kharakteristik rasseyaniya elektromagnitnykh voln ob"ektami / A. A. Maksimova, A. G. Yurochkin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2016. No.16. pp.53-56.

5. Kazakov E.N. Razrabotka i programmnaya realizatsii algoritma otsenki urovnya signala v seti wi-fi / E.N.Kazakov // Modelirovanie, optimizatsiya i informatsionnye tekhnologii. 2016. No.1(12). pp.13.

6. Boluchevskaya O.A. Svoystva metodov otsenki kharakteristik rasseyaniya elektromagnitnykh voln / O.A.Boluchevskaya, O.N.Gorbenko // Modelirovanie, optimizatsiya i informatsionnye tekhnologii. 2013. No.3. pp.4.

7. Pratihar P. Detection Techniques for Human Safety from Concealed weapon and Harmful EDS / P. Pratihar, A.K.Yadav // International Review of Applied Engineering Research, 2014, Vol. 4, № 1, pp. 71-76.

8. http://www.mitechnologies.com/papers/90/A%20Millimeter%20Compact %20Range.pdf

9. Erasov S.V. Optimizatsionnye protsessy v elektrodinamicheskikh zadachakh / S.V.Erasov // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2013. No.10. pp.20-26.

10. Whitmoyer S. Determining asphalt concrete properties via the impact resonant method / S.Whitmoyer, Y. R.Kim // J. Testing and Evaluation, 1994, Vol. 22, Issue 2, pp.139-148.

11. Wang Y. Complex resonant frequencies for the identi.cation of simple objects in free space and lossy environments / Y. Wang, N. Shuley, // Progress In Electromagnetic Research, 2000, Vol. 27, pp.1-18

12. 12. http://www.khai.edu/csp/nauchportal/Arhiv/REKS/2010/REKS410/Sugak .pdf

13. Mishin Ya.A. O sistemakh avtomatizirovannogo proektirovaniya v besprovodnykh setyakh / Ya.A.Mishin // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2013. No.10. pp.153-156.

14. Maksimova A.A. Modelirovanie rasseyaniya elektromagnitnykh voln na neodnorodnykh magnito-dielektricheskikh telakh / A.A.Maksimova // Modelirovanie, optimizatsiya i informatsionnye tekhnologii. 2015. No.4 (11). pp.11.

15. . Sarkar T. A real-time signal processing technique for approximating a function by a sum of complex exponentials utilizing the matrix pencil approach / T. Sarkar, F. Hu, Y. Hua, M. Wick // Digital Signal Processing - A Review Journal, 1994, vol. 4, no. 2, pp. 127-140.

16. Chasovskoy A. A. Otsenka perspektiv vnedreniya oblachnykh vychisleniy na predpriyatiyakh i v gosudarstvennom sektore na primere FRG / A. A. Chasovskoy, E. V. Alferenko // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2016. No.16. pp.94-97.

17. Lavlinskaya O. Yu. Tekhnologii oblachnykh vychisleniy i ikh primenenie v reshenii prakticheskikh zadach / O. Yu. Lavlinskaya, T. M. Yankis // Vestnik Voronezhskogo instituta vysokikh tekhnologiy. 2016. No.16. pp.33-36.

18. Antenny i ustroystva SVCh. Proektirovanie fazirovannykh antennykh reshetok. Uchebnoe posobie / Pod red. D. I. Voskresenskogo. M.: Radio i svyaz', 1994. 592 p.

19. Lvovich I. The development of cad of information systems and software for diffractive structures / I. Lvovich, A. Preobrazhensky, O. Choporov // Information Technology Applications. - 2016. - No.1. - pp.107-116.

20. Lvovich Ya. Modeling of scattering of electromagnetic waves on the base of multialternative optimization / Ya. Lvovich, A. Preobrazhensky, O. Choporov / Information Technology Applications. - 2016. - № 1. - С. 117-125.

21. Preobrazhenskiy A.P. Modelirovanie rasseyaniya voln na poloy strukture s pogloshchayushchim materialom / A.P. Preobrazhenskiy, O.N. Choporov, K.V. Kaydakova // V mire nauchnykh otkrytiy. - 2015. - No.8.1 (68). - pp.523-526.

22. Preobrazhenskiy A.P. Modelirovanie rasseyaniya elektromagnitnykh voln na nesimmetrichnom ob"ekte / A.P. Preobrazhenskiy, O.N. Choporov, K.V. Kaydakova // V mire nauchnykh otkrytiy. - 2015. - No.8.1 (68). - pp.526-531.

23. Preobrazhenskiy A.P. Issledovanie kharakteristik rasseyaniya elektromagnitnykh voln dlya poloy struktury v ob"ekte / A.P. Preobrazhenskiy, O.N. Choporov, K.V. Kaydakova // V mire nauchnykh otkrytiy. - 2015. - No.4.1 (64). - pp.548-553.

Romanchuk Darina Aleksandrovna

Email: darina_s@mail.ru

Voronezh Institute of High Technologies

Voronezh, Russian Federation

Maksimova Anastasia Alekseevna

Email: maksaa@mail.ru

Russian New University

Moscow, Russian Federation

Keywords: impulse, scattering of electromagnetic waves, safety, identification of objects

For citation: Romanchuk D.A. Maksimova A.A. THE MODELING OF THE DETECTION OF WEAPONS ON THE HUMAN BODY BY PULSED IRRADIATION. Modeling, Optimization and Information Technology. 2016;4(3). URL: https://moit.vivt.ru/wp-content/uploads/2016/10/SerdyutskayaMaksimova_3_16_1.pdf DOI: (In Russ).

384

Full text in PDF

Published 30.09.2016