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Journal Achievements of Modern Radioelectronics №4 for 2019 г.
Article in number:
Optimal range’s measurement with quasi-continuous sounding signal to slowly-fluctuating amplitude of reflecting signal
Type of article: scientific article
DOI: 10.18127/j20700784-201904-03
UDC: 621.396
Authors:

S.Yu. Zadorozhnij – Engineer-Programmer2 cat.,  JSC «Research Institute for Instrument Engineering  named after V.V. Tikhomirov» (Zhukovsky)

V.V. Smirnov – Chiev Expert, 

JSC «Research Institute for Instrument Engineering named after V.V. Tikhomirov» (Zhukovsky)

E.B. Tarkinskij – Head of Sector, 

JSC «Research Institute for Instrument Engineering named after V.V. Tikhomirov» (Zhukovsky)

V.T. Yankovskij – Dr.Sc. (Eng.), Professor, Senior Research Scientist, 

Moscow Aviation Institute (National Research University)

E-mail: sergejko2008@yandex.ru

Abstract:

Using in RLS signals with small duty factor the measure of range to target is provided by method low-frequency modulation (usually linear) of probing pulses or by method of using several probing pulses with different repeating frequency (method enumeration of repeating frequency). It is needed to be built posteriori dense probability of delay mirror signal pk(td) using method repeating frequency in all possible range from 0 to Dmax, Dmax – maximize range of RLS action.

Such method of range measurement minimizes errors in case undependable amplifier fluctuation and signal faze from one pulse to another one. In some cases amplifier closer to be never changed and therefore there is the task of optimize the method of range measurement with weak fluctuation amplifier of mirror signal. Such situation is more suitable for signals of helicopter, for targets with one shiny white point and perhaps for purposes have being made according with «STELS» technology and while it is using short time of measurement.

Pages: 23-30
References
  1. Petrov V.V., Koltyshev E.E., Yankovskij V.T. Algoritm izmereniya dal'nosti v radiolokacionnyh stanciyah s kvazinepreryvnymi signalami. Radiotehnika. 2002. № 5. [in Russian]
  2. Tihonov V.I. Optimal'nyj priem signala. M.: Radio i svyaz'. 1983. [in Russian]
Date of receipt: 12 ноября 2018 г.