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An angular—energy method of nonstationary passive location based on a single-position system

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Abstract

An angular—energy method for the combined estimation of the generalized radiolocation coefficient and range to the moving emitting target using the results of bearing and received signal amplitude measurements is developed based on a single-position passive location system. Depending on the constraints imposed on the generalized radiolocation coefficient, two cases are considered, the stationary and nonstationary ones. The working region of the method in range estimation is studied. The results of estimation of the method’s efficiency are presented.

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References

  1. Fundamentals of Ship Maneuvering, Ed. by M. Skvortsov (Voenizdat, Moscow, 1966) [in Russian].

  2. V. A. Khvoshch, Submarine Tactics (Voenizdat, Moscow, 1989) [in Russian].

    Google Scholar 

  3. T. P. Makukhina, A. V. Milen’kii, O. S. Natal’chenko, et al., “Estimation of current coordinates of moving object based on direction finding data,” Vopr. Radioelektron., Ser. ASUPR, No. 2, 3–7 (1992).

    Google Scholar 

  4. Yu. G. Bulychev and I. V. Burlai, “Direction finding under a priori uncertain conditions,” J. Comput. Syst. Sci. Int. 41,716 (2002).

    Google Scholar 

  5. Yu. P. Mel’nikov and S. V. Popov, Radioengineering Exploration. Effectivity Estimation Methods of Emission Sources Position Finding (Raditekhnika, Moscow, 2008) [in Russian].

    Google Scholar 

  6. Yu. G. Bulychev and A. N. Shukhardin, “Identificattion of target trajectory parameters on the base of one-channel moving direction finder,” Radiotekhnika, No. 8, 3–7 (2004).

    Google Scholar 

  7. V. Yu. Bulychev, Yu. G. Bulychev, S. S. Ivakina, and A. A. Mozol’, “Estimation of parameters of object motion based on stationary quasi-autonomous direction finder,” J. Comput. Syst. Sci. Int. 52,811 (2013).

    Article  MATH  Google Scholar 

  8. V. D. Syten’kii, “Passive location based on amplitude measurements,” Izv. Vyssh. Uchebn. Zaved., Radioelektron., No. 1, 69–75 (2011).

    Google Scholar 

  9. Yu. F. Evdokimov and V. P. Medvedev, “Amplitude system of positioning the radiation sources by means of the least-squares method. Study of the system accuracy,” Telecommun. Radio Eng. 63,479 (2003).

    Article  Google Scholar 

  10. V. A. Ufaev, V. I. Afanas’ev, and S. P. Razin’kov, “Estimation of radio source coordinates based on measurements of electromagnetic field amplitude,” Radiotekhnika, No. 10, 71–73 (2003).

    Google Scholar 

  11. Yu. G. Bulychev, A. A. Mozol’, and V. N. Vernigora, “An efficient method for determining a distance at direction finding of target with partially-known parameters,” Russ. Aeronaut. 53,33 (2010).

    Article  Google Scholar 

  12. Yu. G. Bulychev, V. N. Vernigora, and A. A. Mozol’, “The direction-finding powered method for definition of distance to target, using two measurements of autonomous angle-measurement system,” Radioelectron. Commun. Syst. 52,606 (2009).

    Article  Google Scholar 

  13. V. Yu. Bulychev, Yu. G. Bulychev, and S. S. Ivakina, “Passive location based on angular and power measurements of a system of radars,” J. Comput. Syst. Sci. Int. 53,63 (2014).

    Article  MATH  Google Scholar 

  14. E. S. Venttsel’, Theory of Probabilities (Vyssh. shk, Moscow, 1999) [in Russian].

    Google Scholar 

  15. V. I. Mudrov and V. P. Kushko, Methods for Processing Measurements: Quasi-Likelihood Estimates (Radio Svyaz’, Moscow, 1983) [in Russian].

    Google Scholar 

  16. Yu. G. Bulychev, V. Yu. Bulychev, and N. G. Parkhomenko, “On expanding the boundaries of applicability of nonlinear filtering theory in problems of estimation of target motion parameters,” Vestn. Kazan. GTU Tupoleva, No. 4, 95–104 (2011).

    Google Scholar 

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Authors and Affiliations

  1. All-Russian Scientific Research Institute Gradient, Rostov-on-Don, Russia Radio-Electronic Technologies, Moscow, Russia

    V. Yu. Bulychev, Yu. G. Bulychev, S. S. Ivakina & I. G. Nasenkov

Authors
  1. V. Yu. Bulychev
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  2. Yu. G. Bulychev
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  3. S. S. Ivakina
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  4. I. G. Nasenkov
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Correspondence to V. Yu. Bulychev.

Additional information

Original Russian Text © V.Yu. Bulychev, Yu.G. Bulychev, S.S. Ivakina, I.G. Nasenkov, 2015, published in Izvestiya Akademii Nauk. Teoriya i Sistemy Upravleniya, 2015, No. 5, pp. 122–136.

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Bulychev, V.Y., Bulychev, Y.G., Ivakina, S.S. et al. An angular—energy method of nonstationary passive location based on a single-position system. J. Comput. Syst. Sci. Int. 54, 783–797 (2015). https://doi.org/10.1134/S1064230715040073

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  • DOI: https://doi.org/10.1134/S1064230715040073

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