"JOURNAL OF RADIO ELECTRONICS" (Zhurnal Radioelektroniki ISSN 1684-1719, N 12, 2016

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Simulation modeling of digital antenna arrays with the method of spatially-correlation for decameter signals processing

I. M. Oroschuk 1, A. N. Suchkov 1, V. A. Zharikov-Gorskiy 2

1 Far Eastern Federal University, Vladivostok, Russian Federation

2 Makarov Pacific High Naval School, Vladivostok, Russian Federation

 

The paper is received on November 28, 2016

 

Abstract. The simulation model of decameter range digital antenna arrays response synthesis with spatially-correlated signal processing method used in reception path of radar systems is presented. Modeling is based on the particular patterns of spatially-correlation characteristics of decameter range radio signals and natural radio interference received experimentally. The natural radio interference’s spatially-correlated communication dependence has random character. For the purpose of decrease in expenses for experimental researches for digital antenna arrays response synthesis it is offered to use the developed simulation model of a radio interference isotropic field.

Key words: digital antenna array, spatially-correlation characteristics, interference immunity, directional properties, simulation modeling, random realization, synthesis, isotropic field, radio interference.

References

1.  Grigorev L.N. Tsifrovoe formirovanie diagrammyi napravlennosti v fazirovannyih antennyih reshetkah. [Digital beamforming in phased arrays]. Moscow, Radiotekhnika Publ. 2010. 144 p. (In Russian)

2.  Voskresenskij D.I. Ustrojstva SVCH i antenny. Proektirovanie fazirovannyh antennyh reshetok. [SHF hardware and antennas. Phased arrays design]. Moscow, Radiotekhnika Publ. 2012. 744 p. (In Russian)

3.  Hanser R.K. Skaniruyuschie antennyie sistemyi. [Scanning antenna systems]. Moscow, Sovetskoe radio. 1966. 496 p. (In Russian)

4.  Y. Tang, B. Jiang, T. Zhou and T. Mao. Multi-resolution composite array based radar with adaptive beamforming. IET International Radar Conference 2015, 14-16 Oct. 2015, pp. 1-4.

5.  L.C. Stange, C. Metz, E. Lissel and A.F. Jacob. Multiplicatively processed antenna arrays for DBF radar applications. IEE Proceedings – Microwaves, Antennas and Propagation, 2002. Volume 149, Issue 2, pp. 106-112.

6.  Weib, M. (2009) Digital Antennas, In Multistatic Surveillance and Reconnaissance: Sensor, Signals and Data Fusion (pp. 5-1 – 5-29). Educational Notes RTO-EN-SET-133, Paper 5. Neuilly-sur-Seine, France: RTO. Available from: www.rto.nato.int.abstracts.aps (date of access: 26.11.16).

7.  Benesson L.S. Antennye reshetki. [Antenna arrays]. Moscow, Sovetskoe radio. 1966. 1966. – 367 p. (In Russian)

8.  Dolgikh V.N., Oroshchuk I.M., Prishchepa M.N. Probabilistic Characteristics of Signal Detection by a Spatial Correlation Filter. Acoustical  Physics. 2007(53); 2:190-196. New York (in Engl.). 

9.  Oroschuk I.M., Suchkov A.N., Vasilenko A.M. The spatially-correlation properties of decameter waves radio signals. Elektrosvyaz - Electric communication, 2015, No. 7, pp. 34-39.

10. Oroschuk I.M., Dolgikh V.N., Suchkov A.N. Probabilistic characteristics of a spatially-correlation method of signals detection in the decameter range. Zhurnal Radioelektroniki - Journal of Radio Electronics, 2013, No.12. Available at http://jre. cplire.ru/jre/dec13/5/ text.html. (In Russian)

11.  Oroschuk I.M., Suchkov A.N. Capabilities of nonlinear digital antenna arrays application in the decameter range. Vestnik Inzhenernoy shkolyi DVFU – Herald of the FEFU Engineering school, 2015, No. 2, pp. 17-26. Available at http://vestnikis.dvfu.ru/images/2015-2-3.pdf.

12.  Oroschuk I.M., Suchkov A.N. The spatially-correlation method of signals processing in the decameter range. 16-ya Mezhdunarodnaya konferentsiya «Tsifrovaya obrabotka signalov i ee primenenie». Sektsiya 4 «Obrabotka signalov v radiotehnicheskih sistemah». [The 16-th International Conference «Digital signal processing and its application». Section 4 «Signal processing in radio engineering systems»]. Moscow. RNTORES named after A.S. Popov. 2014. pp. 302–305.

13. Oroschuk I.M., Suchkov A.N., Vasilenko A.M. The spatially-correlation method of signals processing in the nonuniformly-filled digital antenna arrays. 17-ya Mezhdunarodnaya konferentsiya «Tsifrovaya obrabotka signalov i ee primenenie». Sektsiya 4 «Obrabotka signalov v radiotehnicheskih sistemah». [The 17-th International Conference «Digital signal processing and its application». Section 4 «Signal processing in radio engineering systems»]. Moscow. RNTORES named after A.S. Popov. 2015. pp. 385–389.

14. Dolgikh V.N. Prostranstvenno-korrelyatsionnyie svoystva signalov i pomeh dekametrovogo diapazona. [The decameter range spatially-correlation characteristics of signals and interferences]. Vladivostok, The branch of NAVY Academy named after N.G. Kuznetsov Publ. 2013. 112 p. (In Russian)

15. Zharikov-Gorskiy V.A., Oroschuk I.M., Suchkov A.N. The decameter range isotropic radio interfierence field simulation. 9-ya Mezhdunarodnaya nauchno-tekhnicheskaya konferentsiya «Akusticheskie I radiolokacionnye metody izmerenij i obrabotki informacii». Sektsiya 1 «Matematicheskie metody modelirovaniya fizicheskih processov v optike, radiolokacii. R-funkcii, atomarnye funkcii, vejvlety, fraktaly i haos». [The 9th International Conference «Acoustooptic and radar methods for information measurements and processing»]. Suzdal. RNTORES named after A.S. Popov. 2016. pp. 39–43.

16.  Klovskiy D.D., Sojfer V.A. Obrabotka prostranstvenno-vremennyh signalov. [The spatially-temporal signal processing] Moscow, Svyaz Publ. 1976.

17.   Zyuko A.G. Pomehoustoychivost i effektivnost sistem svyazi. [Noise stability and efficiency of communication systems].Moscow, Svyaz Publ. 1970. 360 p. (In Russian)

18.   Tihonov V.I. Statisticheskaya radiotehnika.[The statistical radio engineering]. Moscow, Radio i svyaz Publ. 1982. 624 p. (In Russian)

19.    Levin B.R. Teoreticheskie osnovyi statisticheskoy radiotehniki.[The theoretical basis of statistical radio engineering]. Moscow, Sovetskoe radio Publ. 1968. 360 p. (In Russian)

20. Oroschuk I.M., Suchkov A.N., Zharikov-Gorskiy V.A. The decameter range statistically space-coupled radio interference field synthesis algorithm. 18-ya Mezhdunarodnaya konferentsiya «Tsifrovaya obrabotka signalov i ee primenenie». Sektsiya 4 «Obrabotka signalov v radiotehnicheskih sistemah». [The 18-th International Conference «Digital signal processing and its application». Section 4 «Signal processing in radio engineering systems»]. Moscow. RNTORES named after A.S. Popov. 2016. pp. 551556.

21. Sosulin U.G., Kostrov V.V., Parshin U.N. Ocenochno-korrelyacionnaya obrabotka signalov I kompensaciya pomekh. [Evaluative-correlated signal processing and jamming compensation]. Îöåíî÷íî-êîððåëÿöèîííàÿ îáðàáîòêà ñèãíàëîâ è êîìïåíñàöèÿ ïîìåõ. Moscow, Radiotekhnika Publ. 2014. 632 p. (In Russian).