Abonnement à la biblothèque: Guest
Portail numérique Bibliothèque numérique eBooks Revues Références et comptes rendus Collections
Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Imprimer: 0040-2508
ISSN En ligne: 1943-6009

Volume 78, 2019 Volume 77, 2018 Volume 76, 2017 Volume 75, 2016 Volume 74, 2015 Volume 73, 2014 Volume 72, 2013 Volume 71, 2012 Volume 70, 2011 Volume 69, 2010 Volume 68, 2009 Volume 67, 2008 Volume 66, 2007 Volume 65, 2006 Volume 64, 2005 Volume 63, 2005 Volume 62, 2004 Volume 61, 2004 Volume 60, 2003 Volume 59, 2003 Volume 58, 2002 Volume 57, 2002 Volume 56, 2001 Volume 55, 2001 Volume 54, 2000 Volume 53, 1999 Volume 52, 1998 Volume 51, 1997

Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v69.i2.70
pages 153-167

Methods for Assessing the Threshold Value of Jamming Energy of Electronic Computer Aids by an Electromagnetic Pulse

V. A. Ivanov
Academy of the Russian Federal Security Service, Orel, Russian Federation
V. M. Kuprienko
Academy of the Russian Federal Security Service, Orel
A. A. Dvilyanskii
Academy of the Russian Federal Security Service, Orel
V. P. Tikhomirov
Academy of the Russian Federal Security Service, Orel
P. V. Popov
Academy of the Russian Federal Security Service, Orel


A methodological approach to assessing the threshold value of jamming energy of electronic computer aids for identification of protective measures against destructive impact of an electromagnetic pulse is discussed.


  1. Barsukov, V. S., Channels of Force Destructive Impact on Computer Systems.

  2. Ivanov, V. A. and Dvilyanskii, A. A., Substantiation of the need for protection of the local computer networks against ultrashort electromagnetic pulses with different spectral characteristics.

  3. Antipin, V. V., Godovitsyn, V. A., Gromov, D. V., Kozhevnikov, A. S., and Ravaev, A. A., Effects of powerful pulse microwave interference on semiconductor devices and integrated microcircuits.

  4. Goryachev, V. A. and Zakharov, S. M., Characteristics of electromagnetic noise in microprocessor communication lines.

  5. Myrova, L. O. and Chepizhenko, A. Z., Ensuring Communication Equipment Resistance to Ionizing and Electromagnetic Impacts.

  6. Ivanov, V. A. and Dvilyanskii, A. A., Method for calculation of an electric field, penetrating the metal screens of a computer under the impact of an electromagnetic pulse.

  7. Polinskii, A. V., Sosunov, B. V., and Timchuk, A. A., Calculation of Pulse Fields in the Zone of Irradiation of the Vertical Asymmetrical Vibrator.

  8. Markov, G. G., Petrov, B. M., and Grudinskaya, G. P., Electrodynamics and Propagation of Radio Waves.

  9. Apollonskii, S. M., Calculation of Electromagnetic Shielding.

  10. Ivanov, V. A. and Dvilyanskii, A. A., Substantiation of the criterion of the functional destruction of computers.

Articles with similar content:

Compensation of Nonlinear Signal Distortions in an Optical Path of a High-Speed Fiber-Optic Transmission System
Telecommunications and Radio Engineering, Vol.67, 2008, issue 19
V. N. Pavlov
Synthesis of Optimal Control of Hybrid Engine Unit
Journal of Automation and Information Sciences, Vol.41, 2009, issue 3
Sergey A. Serikov
Helical Explosive Magnetic Devices
Telecommunications and Radio Engineering, Vol.63, 2005, issue 7-12
V. A. Soshenko, A. O. Puzanov
Modeling of the Direct Digital Frequency Synthesizer in a System of Residual Classes Based on the PSPICE Design System
Telecommunications and Radio Engineering, Vol.65, 2006, issue 1-5
A. A. Bazhenov
Multifrequency Near-Zone Radar of 6-mm Wave Range with Combination of Pulse Synthesis and Transversal Scanning
Telecommunications and Radio Engineering, Vol.66, 2007, issue 10
Ye. V. Kondratyev, V. V. Alekseev, D. Yu. Saltykov, O. O. Drobakhin, M. V. Andreev