"JOURNAL OF RADIO ELECTRONICS" (Zhurnal Radioelektroniki ISSN 1684-1719, N 2, 2018

contens of issue      DOI  10.30898/1684-1719.2018.2.9      full text in Russian (pdf)   

Management of the processes of creation of space-based radar complexes based on the analysis of the likelihood ratio of the correlation-extreme functions of the obtained and synthesized radio holograms


V. V. Gruzdov 1, A. N. Leukhin 2, V. K. Sloka 3

1 Joint-Stock Company Scientific & Production Enterprise Pulsar», Okruzhnoy proezd 27, Moscow 105187, Russia

 2 Mari State University, Lenin Square 1, Yoshkar-Ola 424000, Russia

 3Academician A. L. Minz Radiotechnical Institute, 8 Marta str., 10/1, Moscow 127083, Russia


The paper is received on February 15, 2018


Abstract. The problems of constructing a mathematical model of a space-based radar complex with a synthesized antenna aperture for solving the problems of the formation and primary processing of digital radio holograms of various radio-wave ranges are considered, taking into account the technical features of the onboard equipment construction. The main stages of the development of complex technical systems and work, regulated for the process of designing a complex system, are given. The principles of operation of the space-based radar complex with synthesized antenna aperture are described. On the basis of the developed mathematical model, a concept is proposed and a method for complex simulation and control modeling of the technological process of creating space-based radar complexes is developed with the aim of minimizing the risks and cost of work in the life cycle of the space-based radar.

Key words: space-based radar complex, management of creation processes, mathematical model, digital radio hologram, analysis of radar images.


1. Boev S.F., Stupin D.D., Kochkarov A.A. and others. Moshchnye nadgorizontnye RLS dal'nego obnaruzheniya: razrabotka, ispytaniya, funktsionirovanie. [Powerful over-horizon long-range radar: development, testing, operation] Edited by S.F. Boev. Moscow, Radiotekhnika Publ. 2013. 168 p. (In Russian)

2. Boev S.F., Stupin D.D., Kochkarov A.A. Management features of the implementation of system projects in high-tech industries. Oboronnyy kompleks – nauchno-tekhnicheskomu progressu Rossii - Defense complex - scientific and technological progress of Russia, 2013. No. 1. Pp. 113-121 (In Russian)

3. Kondratenkov G.S., Frolov A.Y. Radiovidenie. Radiolokatsionnye sistemy distantsionnogo zondirovaniya Zemli. Uchebnoe posobie dlya vuzov. [Radio broadcasting. Radar systems for remote sensing of the Earth. Textbook for high schools]. Edited by G. S. Kondratenkov. Moscow, Radiotekhnika Publ. 2005. 368 p. (In Russian)

4. Verba V.S., Neronsky L.B., Osipov I.G., Turuk V.E. Radiolokatsionnye sistemy zemleobzora kosmicheskogo bazirovaniya. [Radar systems of ground-based space survey]. Edited by  V.S. Verba. Moscow,  Radiotekhnika Publ. 2010. 680 p. (In Russian)

5. Neronsky L.B. Prospects for the development of methods and systems of space based radar observation. Zhurnal Radioelektroniki - Journal of Radio Electronics, 2011. No. 11. Available at http://jre.cplire.ru/jre/nov11/14/text.pdf (In Russian)

6. Radiolokatsionnye stantsii s tsifrovym sintezirovaniem apertury antenny. [Radar stations with digital synthesis of antenna aperture]. Edited by V.T. Goryainov. Moscow, Radio I svyaz Publ. 1988. 304 p. (In Russian)

7. Babokin M.I. Estimation of the state of an agitated sea surface with the help of SAR. Radiotekhnika - Radio Engineering, 2009. No. 11. pp. 5-14 (In Russian)

8. Babokin M.I., Efimov A.V., Zaitsev S.E. etc. Results and lessons of flight tests of the RSA of the small spacecraft «Condor-E». Trudy VI Vserossiyskikh Armandovskikh chteniy. [Proc. of 6-d All-Russian Armand Readings]. Murom Institute of Vladimir State University, 2016, 36 p. (In Russian)

9 Kondratenkov G.S., Koltyshev E.E., Frolov A.Y., Yankovsky V.T. Phase portrait of objects in the radar with synthesized aperture. Radiotekhnika - Radio Engineering, 2000. No. 8 (In Russian)

10. Osipov I.G., Neronskiy L.B., Turuk V.E., Andrianov V.I., Verba V.S., Korolev A.V., Kulikovsky M.G., Pushkov D.V., Janushevsky G.D., Feyzulla N.M., Panteleev V.A. Synthetic Aperture Radar for Earth and Sea Surface Observations. 5-ya Evropeyskaya konferentsiya po radaram s sintezirovannoy aperturoy antenny. [Proc. of EUSAR'2004]. Ulm, Germany. 2004. Vol. 1. Pp. 59-62.

11. Babokin M.I., Tsvetkov O.E. Algorithms for interferometric signal processing of SAR signals for identification of moving targets. Radiotekhnika - Radio Engineering, 2012. ¹10. pp. 87-92 (In Russian)


For citation:

V. V. Gruzdov, A. N. Leukhin, V. K. Sloka. Management of the processes of creation of space-based radar complexes based on the analysis of the likelihood ratio of the correlation-extreme functions of the obtained and synthesized radio holograms.  Zhurnal Radioelektroniki - Journal of Radio Electronics. 2018. No. 2. Available at http://jre.cplire.ru/jre/feb18/7/text.pdf
DOI  10.30898/1684-1719.2018.2.9