Technology Of Application Of Multifrequency Signals To Create An Electromagnetic Field |
Strembitska, Oksana
(Department of Bioengineering Systems, Ternopil Ivan Puluj National Technical University)
Tymoshenko, Roman (Department of Operations Maintenance and Prospects Research and Development, Ivan Chernyakhovskyi National Defense University of Ukraine) Mozhaiev, Mykhailo (Department of Computer Engineering and Telecommunication) Buslov, Pavlo (Kharkiv National University of Radio Electronics) Kashyna, Ganna (Adult of Education, National Pedagogical Dragomanov University) Baranenko, Roman V. (Department of Information Technology, Uman National University of Horticulture) Makiievskyi, Oleksii (Kyiv Transport and Economic College National Transport University) |
1 | M.M. Iasechko, and O.M. Sotnikov. Advanced technologies of radio electronic equipment (means) protection from powerful electromagnetic radiations with ultra short duration of pulses exposure, Published by Izdevnieciba Baltija Publishing, Collective monograph, Riga, 2018, pp.356-385. |
2 | O. Sotnikov, M. Iasechko, V. Larin, O. Ochkurenko, and D.Maksiuta. The model of a medium for creation of electric hermetic screens of the radio electronic means, IJATCSE. 8(2), 2019, pp. 300-304. doi:10.30534/IJATCSE/2019/32822019. DOI |
3 | M. Iasechko, V. Larin, O. Ochkurenko, A. Trystan, T.Voichenko, A. Trofymenko, and O. Sharabaiko. Determining the function of splitting the charged particles of the strongly ionized air environment in the openings of the case-screens of radioelectronic means, IJATCSE. 8(1.3), 2019, pp. 19-23. doi: 10.30534/ijatcse/2019/0481.32019. DOI |
4 | M. Iasechko, V. Larin, O. Ochkurenko, S. Salkutsan, L. Mikhailova, and O. Kozak. Formalized Model Descriptions Of Modified Solid-State Plasma-Like Materials To Protect Radio-Electronic Means From The Effects Of Electromagnetic Radiation, IJATCSE. 8(3), 2019, pp. 393-398. doi: 10.30534/ijatcse/2019/09832019. DOI |
5 | A. Syrotenko, O. Sotnikov M. Iasechko, V. Larin, S.Iasechko O. Ochkurenko, and A. Volkov. Model of Combined Solid Plasma Material for the Protection of Radio-Electronic Means of Optical and Radio Radiation, IJATCSE, 8(4), 2019, pp. 1241 - 1247. doi:10.30534/ijatcse/2019/33842019. DOI |
6 | O. Turinskyi, M. Iasechko, V. Larin, D. Dulenko, V. Kravchenko, O. Golubenko, D.Sorokin, and O. Zolotukhin. Model and development of plasma technology for the protection of radio-electronic means of laser emission, IJATCSE. 8(5), 2019, pp. 2429-2433. doi:10.30534/IJATCSE/2019/85852019. DOI |
7 | M.Iasechko, Y. Gnusov, I. Manzhai, O. Uhrovetskyi, V.Manoylo, A. Iesipov,O. Zaitsev, M. Volk, and O. Vovk. Determination of requirements for the protection of radio-electronicequipment from the terroristic influence by electromagnetic radiation, IJETER, 7(12), 2019, pp. 772 - 777. doi: 10.30534/ijeter/2019/077122019. DOI |
8 | O. Turinskyi, M. Burdin, M. Iasechko, V. Larin, Y. Gnusov, D. Ikaev, V. Borysenko, and V. Manoylo. Protection of board radioelectronic equipment from the destructive powerful electromagnetic radiation with the use of natural technologies, IJETER, 7(11), 2019, pp. 542 - 548. doi: 10.30534/ijeter/2019/2371120 19. DOI |
9 | M. Iasechko, N. Sachaniuk-Kavets'ka, V.Kostrytsia, V.Nikitchenko and S. Iasechko. The results of simulation of the process of occurrence of damages to the semiconductor elements under the influence of multi-frequency signals of short duration, Journal of Critical Reviews, 7(12), 2020, pp. 109 - 112. doi:10.31838/jcr.07.13.18. DOI |
10 | M. Iasechko, V. Larin, D. Maksiuta, S.Bazilo and I. Sharapa. The method of determining the probability of affection of the semiconductor elements under the influence of the multifrequency space-time signals, Journal of Critical Reviews, 7(9), 2020, pp. 569 - 571. doi: 10.31838/jcr.07.09.113. DOI |
11 | O. Turinskyi, M. Iasechko, V. Larin, T. Prokopenko, O. Kolmohorov, O. Salash, V. Tarshyn and Yu. Dziubenko. Determination of requirements for the protection of radio-electronicequipment from the terroristic influence by electromagnetic radiation, IJETER, 8(4), 2020, pp. 1333 - 1334. doi: 10.30534/ijeter/2020/64842020. DOI |
12 | M. Iasechko. Plasma technologies for the protection of radio electronic means from exposure to high-power electromagnetic radiations with ultrashort pulse duration, Proceedings of the 1-st Annual Conference, Tallinn, Estonia, 2017, pp. 18-21. doi: 10.21303/2585-6847.2017.00480. DOI |
13 | M. Iasechko, O. Tymochko, Y. Shapran, I. Trofymenko, D. Maksiuta, and Y. Sytnyk. Loss definition of charged particles in the discharge gap of the opening of the box-screens during the formation of a highly conductive channel, IJATCSE. 8(1.3), 2019, pp. 1-9. doi: 10.30534/ijatcse/2019/0181.32019. DOI |
14 | M.M. Iasechko, and O.M. Sotnikov. Protecting of radio electronic facilities is from influence of powerful electromagnetic radiation, Published by Izdevnieciba Baltija Publishing, Collective monograph, Riga, 2019, pp.283-299. |
15 | M. Iasechko, V. Larin, D. Maksiuta, O. Ochkurenko, I. Krasnoshapka, Y.Samsonov, H. Lyashenko, A.Zinchenko, and R.Vozniak. Model description of the modified solid state plasma material for electromagnetic radiation protection, IJETER, 7(10), 2019, pp. 376 - 382. doi: 10.30534/ijeter/2019/027102019. DOI |
16 | M. Iasechko, M. Kolmykov, V. Larin, S.Bazilo, H. Lyashenko, P. Kravchenko, N. Polianova and I. Sharapa. Criteria for performing breakthroughs in the holes of radio electronic means under the influence of electromagnetic radiation, ARPN Journal of Engineering and Applied Sciences, 15(12), 2020, pp. 1380 - 1384. |