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Efficiency Evaluation Method for the Devices with Infrasound Impact on Functioning of Computer Equipment

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A significant threat to critical infrastructure of computer systems has a destructive impact caused by infrasound waves. It is shown that the known infrasound generations are based on using the following devices: a Helmholtz Resonator, Generation by using a Pulsating Sphere such as Monopolies, Rotor-type Radiator, Resonating Cylinder, VLF Speaker, Method of Paired Ultrasound Radiator, and airscrew. Research of these devices was made in this paper by revealing their characteristics, main advantages and disadvantages. A directional pattern of infrasound radiation and a graph of dependence of infrasound radiation from the consumed power was constructed. Also, during the analysis of these devices, there was proven a set of basic parameters, the values of which make it possible to characterize their structural and operational characteristics. Then approximate values of the proposed parameters of each those considered devices, were calculated. A new method was developed for evaluating the effectiveness of infrasound generation devices based on the definition of the integral efficiency index, which is calculated using the designed parameters. An example of practical application of the derived method, was shown. The use of the method makes it possible, taking into account the conditions and requirements of the infrasound generation devices construction, to choose from them the most efficient one.
Rocznik
Strony
189--196
Opis fizyczny
Bibliogr. 25 poz., il., rys., tab., wykr.
Twórcy
autor
  • Department of Information Technology Security of National Aviation University, Kyiv, Ukraine
  • Department of System Programming and Specialised Computer Systems of the National Technical University of Ukraine, Igor Sikorsky Kyiv Polytechnic Institute, Kyiv, Ukraine
  • Department of Information Security of the Kazakh National Research University
autor
  • Department of Information Security of the Kazakh National Research University
autor
  • Department of Information Technology Security of National Aviation University, Kyiv, Ukraine
autor
autor
  • Faculty of Electrical Engineering and Information Technology of the Lublin University of Technology, Poland
autor
  • Faculty of Electrical Engineering and Information Technology of the Lublin University of Technology, Poland
Bibliografia
  • [1] Atchley AA. Not your ordinary experience: a nonlinear-acoustics primer, Acoustics Today, 10, 2005; (10): 1924.
  • [2] Biryukov DS. Critical Infrastructure Protection: Challenges and prospects for implementation in Ukraine. Editor: Biryukov, D. S., Kondrashov, S. I., NISS; 2012.
  • [3] Blokhintsev DI. Whirling sound. ZHTF; 1945.
  • [4] Furduev VV. Elektro acoustics. GTti; 1948.
  • [5] Gliva VA, Levchenko LO, Perelot TM. Spatial criteria of shielding low frequency magnetic fields. Management of Complex Systems. 2015; (22).
  • [6] von Helmholtz H. On the sensations of tone as a physiological basis for the theory of music. editor: Ellis, A. J., Longmans, Green; 1885.
  • [7] Jackson MC. Systems Methodology for the Management Sciences. New York: Plenum; 1991, ISBN 978-1-4899-2632-6.
  • [8] Jeethendra Kumar PK. Helmholtz’s volume resonator, Lab Experiments KamalJeeth Instrumentation and Service Unit. March 2012; 12(1): 55-62.
  • [9] Keating C, Rogers R, Unal R, Dryer D, Sousa-Poza A, Safford R, Peterson W, Rabadi G. System of Systems Engineering. Engineering Management Journal. 2003;15(3). Available from: http://dx.doi.org/10.1080/10429247.2003.11415214
  • [10] Korchenko A. Neural network models, methods and assessment tools of the security parameters of Internet-oriented information systems. monograph by Korchenko AG, Tereykovsky I, Karpinsky N, Tynymbaev SK. TOV "Our Format"; 2016.
  • [11] Krendall IB. Acoustics. VETA; 1934.
  • [12] Menshakov JK. Protection of objects and information from reconnaissance equipment. Textbook, Manual M.: Russian State Humanities, University Press; 2002.Myasnikov LL. Inaudible sounds. 2nd ed. Shipbuilding; 1967.
  • [13] Naugolnykh KA, Ostrovskii LA. Nonlinear wave processes in acoustics. Science; 1990.
  • [14] Ricketts LW, Bridges JE, Miletta J. EMP Radiation and Protective Techniques. John Wiley and Sons, New York; 1976.
  • [15] Seilova N. Conceptual model to ensure the efficiency of neural network recognition of phonrmes in distance learning. In Seilova N, Tereykovskaya L, Nadgi A. Vestnik KazNRTU, 2016; 114(2): 345-351.
  • [16] Skuchik E. Fundamentals of acoustics. Mir; 1976.
  • [17] Sokol GI. Features of acoustic processes in the infrasound frequencies range. Dnepropetrovsk: Promin; 2000.
  • [18] Sokol GI, Zavyalova MP. Nature of whirling sound in wind. Abstract of the 7th Int. Youth Science and Practical Conf. "Man and Space". Dnipropetrovsk, NTSAOMU. 2005.
  • [19] Strutt J, (Lord Rayleigh), Sound theory, GITTL, 1955.
  • [20] Tereykovskaya L. Prospects of neural networks in business models. In Tereykovskaya L, Petrov O, Aleksander M. TransComp, 30 Nov-3 Dec, Zakopane, Poland. 2015: 1539-1545.
  • [21] Webster AG. Acoustical Impedance, and the Theory of Horns and of the Phonograph, Proc. Nat. Acad. Sci. 1919.
  • [22] OLMA Media Grupp. Personal Computer; 2007.
  • [23] SDS 3.3 6.037-99 Sanitary norms of industrial noise, ultrasound and infrasound. Health of Ukraine. 1999.
  • [24] Technical description and user manual of wind electrical installation WEU-500 number 90.9990.0000.0000.01.0.TO. Dnepropetrovsk: SDO "Yuzhnoye", 1997.
  • [25] https://www.google.pl/search?q=Tube+hELMHOLTZ+RESONATOR&tbm=isch#spf=1
Uwagi
1. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
2. This work was supported in part by Institute of Electrnics and Information Technology of Lublin University of Technology.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5ddd2837-b600-4c46-81d3-88ba8cffd45e
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