350 rub
Journal Radioengineering №7 for 2019 г.
Article in number:
Algorithm of spatial configuration definition of telecommunication systems objects with use of neural network technology
Type of article: scientific article
DOI: 10.18127/j00338486-201907(9)-09
UDC: 621.396
Keywords: Neural network technology artificial neural networks spatial configuration definition azimuthal angular position estimates of signals source efficiency upgrading of telecommunication systems.
Authors:

А.А. Strotsev – Dr.Sc.(Eng.), Associeit Professor, Deputy Head on Science of Scientific and Technical Ddepartment, FSUE «RNIIRS» FRPC

А.V. Averyanov – Ph.D.(Eng.), Software Engineer, 

FSUE «RNIIRS» FRPC

Y.A. Averyanovа – Post-graduate Student, Engineer,  FSUE «RNIIRS» FRPC

Abstract:

The algorithm of spatial configuration definition of telecommunication systems objects with use of neural network technology is developed. The general procedure of using neural network technology for assessment of spatial configuration of telecommunication systems objects on the basis of their azimuthal angular position estimates is described. Comparative analysis of the developed algorithm with the known neural network algorithm and the maximum likelihood method on accuracy figure – a mean-squared deviation of an azimuthal angular position assessment is made. The developed algorithm surpasses the known neural network algorithm in accuracy and is almost compared to the maximum likelihood method. However computing expenses in comparison with the known maximum likelihood method are reduced by 4.6 times.

Pages: 81-88
References
  1. Zyuko A.G., Falko A.I., Panfilov I.P., Banket L.V., Ivashchenko P.V. Pomekhoustoichivost i effektivnost sistem peredachi informatsii. Pod red. A.G. Zyuko. M.: Radio i svyaz. 1985. 272 s. (in Russian)
  2. Averyanov A.V., Lomantsova Yu.A., Strotsev A.A., Sukhenkii I.A. Dvukhetapnyi algoritm raboty mnogokanalnogo korrelyatsionnointerferometricheskogo pelengatora. Obshchie voprosy radioelektroniki. 2016. № 1. S. 35−49. (in Russian)
  3. Dubrovin A.V. Odnoetapnoe otsenivanie mestopolozheniya istochnika radioizlucheniya passivnoi sistemoi, sostoyashchei iz uzkobazovykh podsistem. Radiotekhnika i elektronika. 2004. T. 49. № 2. S. 156−170. (in Russian)
  4. Efimov E.N., Shevgunov T.Ya., Filimonova D.V. Otsenka napravleniya prikhoda signala po metodu maksimalnogo pravdopodobiya pri pomoshchi iskusstvennykh neironnykh setei. IX Vseros. konf. «Radiolokatsiya i radiosvyaz». 2015. S. 239−243. (in Russian)
  5. Averyanova Yu.A., Emelyanov R.V., Strotsev A.A. Neirosetevaya tekhnologiya obespecheniya effektivnosti funktsionirovaniya telekommunikatsionnykh sistem. Sb. tr. 21-i Mezhdunar. konf. «Tsifrovaya obrabotka signalov i ee primenenie». M.: IPU RAN. 27−29 marta 2019. S. 550−554. (in Russian)
  6. Shevgunov T.Ya., Efimov E.N., Filimonova D.V., Voskresenskii D.I. Otsenka napravleniya prikhoda signala s ispolzovaniem iskusstvennykh neironnykh setei maksimalnogo pravdopodobiya. Tsifrovaya obrabotka signalov. 2017. № 2. S. 59−64. (in Russian)
  7. Lomantsova Yu.A., Strotsev A.A. Otsenka vliyaniya topologii antennoi reshetki pelengatora na kachestvo funktsionirovaniya neironnoi seti, formiruyushchei otsenku pelenga. 19-ya Mezhdunar. konf. «Tsifrovaya obrabotka signalov i ee primenenie». M.: IPU RAN. 29−31 marta 2017. S. 814−817. (in Russian)
  8. Khaikin S. Neironnye seti: polnyi kurs. Izd. 2-e, ispr.: Per. s angl. M.: OOO «I.D. Vilyams». 2006. 1104 s. (in Russian)
  9. Vinogradov A.D., Dmitriev I.S. Potentsialnaya tochnost mnogokanalnogo pelengatora s antennoi reshetkoi iz nenapravlennykh nevzaimodeistvuyushchikh antennykh elementov. Antenny. 2008. № 3. S. 60−63. (in Russian)
  10. Averyanova Yu.A., Emelyanov R.V., Stashenko V.V., Strotsev A.A. Otsenka effektivnosti obucheniya neironnykh setei, realizuyushchikh vypolnenie funktsii avtomatizirovannykh sistem upravleniya. I-methods. 2017. T. 9. № 4. S. 32−41. (in Russian)
Date of receipt: 6 июня 2019 г.