Control Systems and Computers, N6, 2016, Article 6

DOI: https://doi.org/10.15407/usim.2016.06.048

Upr. sist. maš., 2016, Issue 6 (266), pp. 48-58.

 UDC 004.93’11

 Ilnitskiy A.I., Burba O.I., Pasichnyk O.O.,

E-mail: oleg_burba@ukr.net

The Statistic Characteristics of the Information Sources Emission Indication During Radio Monitoring of the Telecommunication Nets

Introduction. The efficiency of the structural and systemic approach requires the maximum number of radio information signs. The most complete radio characteristics of the object are: range of  operating frequencies, modulation types, structure signals, signal parameters (frequency, phase, amplitude, temporal) power channel modes, the number of subscribers, and more. That must have formed a full description of the object, maximum possible set of information signs, which enables a high probability recognition of the object and its phase state determination.

Purpose. The scientific problem of the formation signs selection and allocation compounded by uncertainties of input data, a variety of information from which to select,  organizing and arranging for the required value of probability of correct decision.

Methods. The statistical characteristics of  the information signs of the radiation sources at the radio telecommunications networks are examined and the optimal number of informational signs  nopt a  sample volume of observations N are determined. The main task during the radio monitoring and recognition of the  telecommunications networks and information signs signal parameters is observed. 

Results. The high performance radio monitoring with minimal information loss is provided at the optimum amount of information signs.

Download full text! (In Ukrainian and Russian)

Keywords: radio monitoring, detection, telecommunication networks, information signs, estimation of parameters, signals, sources of radiation.

1. Rembovskiy, A.M., Ashikhmin, A.V., Koz’min, V.A., 2006. Radiomonitoring: Zadachi, metody, sredstva. Goryachaya liniya–Telekom, 504 p.

2. Smirnov, YU.A., 2001. Radiotekhnicheskaya razvedka. M.: Voyenizdat, 456 p. (In Russian).

3. Anisimov, V.V., Kurganov, V.D., Zlobin, V.K., 1983. Raspoznavaniye i tsifrovaya obrabotka izobrazheniy. M.: Vyssh. shk., 295 p. (In Russian).

4. Vartapesyan, V.A., 1991. Radioelektronnaya razvedka. M.: Voyenizdat, 254 p. (In Russian).

5. Kupriyanov, A.I., Sakharov, A.V., 2007. Teoreticheskiye osnovy radioelektronnoy bor’by. M.: Vuzovskaya kniga, 355 p. (In Russian).

6. Ornatskiy, P.P., 1976. Teoreticheskiye osnovy informatsionno-izmeritel’noy tekhniki. K.: Vishcha shk., 432 p. (In Russian).

7. Bakulev, P.A., 2004. Radiolokatsionnyye sistemy: Uchebnik dlya vuzov. M.: Radiotekhnika, 320 p. (In Russian).

8. Venttsel’, Ye.S., 1964. Teoriya veroyatnostey. M.: Nauka, 576 p. (In Russian).

9. Kuzmin, S.Z., 1986. Osnovy proyektirovaniya sistem tsifrovoy obrabotki radiolokatsionnoy informatsii. M.: Radio i svyaz, 328 p. (In Russian).

10. Radziyevskiy, V.G., Sirota, A.A., 2004. Teoreticheskiye osnovy radioelektronnoy razvedki. M.: Radiotekhnika, 432 p. (In Russian).

11. Konakhovich, G.F., Babak, V.P., Fisenko, V.M., 2007. Spetsial’nyy radiomonitoring, M.: Dodeka-XXI, 383 p. (In Russian).

 Received 14.11.2016