350 rub
Journal Achievements of Modern Radioelectronics №5 for 2017 г.
Article in number:
Estimating the capacity of cognitive communication system in conditions of jamming its key elements
Type of article: scientific article
UDC: 621.391
Authors:

I.V. Zaitsev – Ph.D. (Eng.), Associate Professor, Head of Department – Deputy Head of an Administration  of MESC AF «N.E. Zhukovsky and Y.A. Gagarin Air Force Academy» (Voronezh)

E-mail: igorwz@mail.ru

А.А. Molev – Adjunct, MESC AF «N.E. Zhukovsky and Y.A. Gagarin Air Force Academy» (Voronezh) E-mail: aadm@mail.ru

Abstract:

The article analyzes the principles of the work of cognitive communication systems and determines the elements involved in the transmission of major part of the traffic and which have the most significant effect on the functioning of the communication system. The influence of blocking key elements on the effectiveness of the communication system and some of its most important structural elements has been assessed.

Pages: 52-62
References
  1. Kucherjavyj A.E., Prokop'ev A.V., Kucherjavyj E.A. Samoorganizujushhiesja seti. SPb.: Ljubavich. 2011.
  2. Fette B. Fourteen Years of Cognitive Radio Development // IEEE Military Communications Conference (MILCOM 2013), San Diego. CA. 2013. P. 1166–1175.
  3. Gur'janov I.O. Kognitivnoe radio: novye podhody k obespecheniju radiochastotnym resursom perspektivnyh radiotehnologij // Jelektrosvjaz'. 2012. № 8. S. 5–8.
  4. Plavunov S., Nosikov S. Sistemy i sredstva svjazi takticheskogo zvena upravlenija suhoputnyh vojsk SShA // Zarubezhnoe voennoe obozrenie. 2012. № 4. S. 42–47.
  5. Warfighter Information Network-Tactical. Commander’s Handbook v1.6. // General Dynamics. 2011.
  6. Proskurjakov V. Kognitivnye radiosistemy v setjah takticheskogo naznachenija // Jelektronnye komponenty. 2014. № 3. S. 36–38.
  7. Miroshnikova N.E. Obzor sistem kognitivnogo radio // Tehnologii informacionnogo obshhestva. 2013. № 9. S. 108–111.
  8. Fette B. Cognitive Radio Technology. 2n ed. / Elsevier. 2009.
  9. Oshmarin D.V. Dinamicheskoe raspredelenie spektra v besprovodnyh setjah sledujushhego pokolenija // Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo. 2010. № 4. S. 158–164.
  10. Liu K.J.R., Wang B. Cognitive Radio Networking and Security / A Game-Theoretic View. Cambridge University Press. 2011.
  11. Mourougayane K., Srikanth S. Intelligent jamming threats to Cognitive Radio based strategic communication networks – A survey // 3rd International Conference on Signal Processing, Communication and Networking (ICSCN). Chennai. 2015. P. 1–6.
  12. Nadendla V.S.S., Chen H., Varshney P.K. On jamming models against collaborative spectrum sensing in a simple cognitive radio network // Conference Record of the Forty Fourth Asilomar Conference on Signals, Systems and Computers. Pacific Grove. CA. 2010. P. 961–965.
  13. Li X., Cadeau W. Anti-jamming performance of cognitive radio networks // 45th Annual Conference on Information Sciences and Systems. Baltimore. MD. 2011. P. 1–6.
  14. Buslenko N.P. Modelirovanie slozhnyh sistem. M.: Nauka. 1978.
  15. Vypasnjak V.I. Gural'nik A.M. Ocenka sostojanija sistemy upravlenija vojskami v hode operacii (boja) // Voennaja mysl'. 2008. № 7. S. 32–41.
  16. Molev A.A., Kolesnikov A.S. Modelirovanie v srede Anylogic sistem radiosvjazi, postroennyh na osnove kognitivnyh tehnologij // XV Mezhdunar. nauch.metodich. konf. «Informatika: problemy, metodologija, tehnologii». Voronezh. VGU. 2015. T. I. S. 349–354.
  17. Standart IEEE 802.11. Specifikacii fizicheskogo i MAC-urovnej. Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications. ANSI/IEEE 802.11-2012.
  18. Standart IEEE 802.22. Cognitive Wireless RAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications: Policies and Procedures for Operation in the TV Bands. ANSI/IEEE 802.22-2011.
  19. Standart ECMA-392. Izd. 2-e. MAC and PHY for Operation in TV White Space. ECMA International. Zheneva. 2012.
Date of receipt: 13 апреля 2017 г.