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Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Imprimir: 0040-2508
ISSN On-line: 1943-6009

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Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v69.i14.50
pages 1253-1263

APPLICATION OF THE WEIBULL DISTRIBUTION FOR ESTIMATION OF THE RETRANSMITTER METER SIGNAL + NOISE SUM AMPLITUDE

D. A. Velichko
Kharkov National University of Radio Engineering and Electronics, 14, Lenin Ave, Kharkov, 61166, Ukraine

RESUMO

The paper presents the results of fitting the model to be applied for estimations of the retransmission meter signal + noise sum amplitude operating at the fluctuating reflector, the elements of which are distributed in the limited volume. The estimates of discrepancy between the results of statistical tests and theoretical calculations by the empirical model are obtained. The nodal values of the Weibull distribution parameters enabling to determine concrete amplitude statistics for the given signal-noise ratios are determined.

Referências

  1. Velichko, A.F. and Velichko, D.A., Retransmission method for measurement and suppression of interference reflections under continuous radiation with frequency modulation.

  2. Vdovychenko, Y.I., Velichko, A.F., and Velichko, D.A., Signal Characteristics of the Retransmission Meter during Monitoring a Fluctuating Reflector.

  3. Kerr, D.E., (ed.), Propagation of Short Radio Waves. MIT Radiation Laboratory Series.

  4. Delano, P., Theory of glitter and angular errors during the radar tracking.

  5. Radar Reflectivity (Special Issue).

  6. Khinchin, A.Ya., Limiting laws for the sum of independent random values.

  7. Korolyuk, V.S., Portenko, N.I., Skorokhod, A.V., and Turbin, M., Manual on the theory of probabilities and mathematical statistics.

  8. Velichko, A.F., Velichko, D.A., and Kurbatov I.V., Phase relations and the method for decreasing the errors during measurement of multifrequency retransmission systems.

  9. Chaevsky, E.V., Ukrainskij Fizicheskij Zhurnal.


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