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Journal Electromagnetic Waves and Electronic Systems №8 for 2013 г.
Article in number:
Multidimensional high-frequency radio channel and experimental studies of its main characteristics
Authors:
V.A. Ivanov, D.V. Ivanov, M.I. Ryabova, A.A. Chernov
Abstract:
In work the main characteristics of a multidimensional high-frequency radio channel are analyzed. The analysis of propagation of high-frequency (HF) of radio signals in the multidimensional ionospheric channel is submitted. The technique of determination of delay spread and bandwidth parameters of multidimensional HF radio channel according to panoramic oblique sounding by continuous chirp signal is advanced. The results of the full-scale experiments which have shown that for radio lines 70 km and 3,5 thousand km are given: the delay spread in the multidimensional channel averages 2,4 ms and 3,5 ms; bandwidth for the radio line 3,5 thousand km long summer's day can make 21 MHz, and at night in the winter  3 MHz in the afternoon; for the route 70 km long the strip for the same conditions varies from 2 MHz to 6 MHz. It is concluded that use of the developed techniques in modern high-frequency radio communication systems will allow to coordinate in an adaptive mode their information technical characteristics with the basic parameters of a multidimensional channel, improving quality and providing the greatest possible duration of communication.
Pages: 40-48
References

  1. Klovskij D.D. Peredacha diskretny'x soobshhenij po radiokanalam. Izd. 2-e, per. i dop. M.: Radio i svyaz'. 1982.
  2. Baskakov S.I. Radiotexnicheskie czepi i signaly'. M.: Vy'sshaya shkola. 2000.
  3. Zyuko A.G., Klovskij D.D. i dr. Teoriya e'lektricheskoj svyazi / pod red. D.D. Klovskogo. M.: Radio i svyaz'. 1998.
  4. MSE'-R. Mnogoluchevoe rasprostranenie i parametrizacziya ego xarakteristik. P.1407-4. Zheneva. 2010.
  5. Nikol'skij V.V., Nikol'skaya T.I. E'lektrodinamika i rasprostranenie radiovol. M.: Librokom. 2012.
  6. Baskakov S.I. E'lektrodinamika i rasprostranenie radiovol. M.: Librokom. 2012.
  7. Jakovlev O.I., Jakubov V.P., Uryadov V.P., Pavel'ev A.G. Rasprostranenie radiovoln. M.: Lenand. 2012.
  8. Ivanov V.A., Ivanov D.V., Ryabova N.V., Ly'ong V'et Lok, Ryabova M.I. Sintez, analiz i prognozirovanie xarakteristik ionosferny'x linij dekametrovoj radiosvyazi. Joshkar-Ola: MarGTU. 2011.
  9. Al'pert Ja.L. Rasprostranenie e'lektromagnitny'x voln i ionosfera. M.: Nauka. 1972.
  10. Ivanov D.V. Metody' i matematicheskie modeli issledovaniya rasprostraneniya v ionosfere slozhny'x dekametrovy'x signalov i korrekczii ix dispersionny'x iskazhenij. Joshkar-Ola: MarGTU. 2006.
  11. Kryukovskij A.S., Lukin D.S., Rastyagaev D.V. Issledovanie osobennostej rasprostraneniya korotkix radiovoln v neodnorodnoj anizotropnoj ionosfere // E'lektromagnitny'e volny' i e'lektronny'e sistemy'. 2009. T. 14. № 8. S. 1726.
  12. Maslin N.M. HF communications: a systems approach. London.: Pitman Publishing. 1987. P. 256.
  13. Davies K. Ionospheric radio // The institution of Engineering and Technology. London. 2008. 580 P.
  14. Ivanov V.A., Kurkin V.I., Nosov V.E. i dr. LChM-ionozond i ego primenenie v ionosferny'x issledovaniyax: obzor // Radiofizika. 2003. T. 34. № 11. S. 919952.
  15. Ryabova N.V. Diagnostika i imitaczionnoe modelirovanie pomexoustojchivy'x dekametrovy'x radiokanalov. Monografiya. Joshkar-Ola: MarGTU. 2003.
  16. Watterson C.C., Juroshek J.R., and Bensema W.D. Experimental confirmation of an HF channel model // IEEE(R) Trans. Commun. Technol. Dec. 1970. V. COM-18. № 6.
  17. Ivanov V.A., Ivanov D.V., Ryabova N.V. Zondirovanie ionosfery' i dekametrovy'x kanalov svyazi slozhny'mi radiosignalami // Vestnik MarGTU: Radiotexnicheskie i infokommunikaczionny'e sistemy'. 2010. № 1. S. 337.