Synthesis of the Algorithm of Adaptive Compensation of Nonlinear Distortions for Informational Systems

  • Authors

    • Oleksandr Shefer
    • Oleksandr Shulha
    • Nataliia Ichanska
    • Caterina Kozelkova
    2018-10-13
    https://doi.org/10.14419/ijet.v7i4.8.27297
  • telecommunication system, dynamic diapason, non-linear adaptive compensation, noise immunity, non-linear dispatching function.
  • An adaptive method of compensation of non-linear distortions was created in informational systems on the basis of usage the synthesized non-linear adaptive compensators for the expansion of a linear dynamic diapason of radio receiving devices that differs from the well-known ones, because it doesn’t lead to reduction of reliability of telecommunication systems both in apparatus and in functional meaning that allowed to increase the quality of their functioning. The usage of non-linear adaptive compensators allows getting the necessary meanings of parameters and the methods of connection of devices that are set to depress the non-linear distortions in those mentioned systems that will allow increasing the reliability of functioning of informational systems in 12% in general.

     

     

     
  • References

    1. [1] Michael J. Buckingham (1983), Noise in Electronic Devices and Systems, Ellis Horwood Ltd , Publisher, 372.

      [2] Shirman Ya. D. (1981), Theory and technology of processing radar information against interference, Radio and communication, 248.

      [3] Polyak B. T. (1980) Robust Adaptation Algorithms, Automation and Remote Control, No.10, 91-97.

      [4] Shefer O. V. (2017), The increase of radio technical noise immunity systems by adaptive premaligant and inversive correlation approach to the detection of the beneficial signal, Scientific Notes UNDIZ, No. 1(45), 82-88.

      [5] Gutkin L. S. (1986), Designing radio systems and radio devices, Radio and communication, 288.

      [6] Shirman Ya. D. (1998), Radio-electronic systems: the basics of construction and theory, ZAO Makvis, 828.

      [7] Chernyshov, V.P. (1989), Propagation of radio waves and anti-feeder devices, Radio and communications, 240.

      [8] Korn G. (1984), Handbook of Mathematics for Scientists and Engineers Science, 831.

      [9] Tikhonov V. I. (2015), Statistical analysis and synthesis of radio engineering devices and systems, Hotline-Telecom, 608.

      [10] Pogorelov A. I. (1988), Analysis of systems for processing complex space-time signals, Signal processing in radio engineering systems, KhAI, 164-173.

      [11] Shefer O. (2014), Algorithm of identification of nonlinear technical systems according to measured data, Control, Navigation and Communication Systems, No. 3 (31), 91-95.

      [12] Mazora, Yu. L. (1999), Radiotekhnika: Encyclopedic Primary School; Primary School, Higher School, 838.

      [13] Shakhtarin B. I. (2008), Wiener and Kalman Filters, Helios ARV, 304.

      [14] Maas, Stephen A. (2003), Nonlinear microwave and RF circuits, 2nd ed. Boston; London: Artech House, 582.

      [15] Kim D. P. (2004), Theory of automatic control Multidimensional, nonlinear, optimal systems, FIZMATLIT, 464.

      [16] Chernega VS (1990), Calculation and design of technical means of exchange and transfer of information, Higher School, 224.

      [17] Kazarinov Yu. M. (1990), Radio engineering systems, Higher School, 496.

      [18] Landau M. Application of the Volterra Series to the Analysis and Design of an Angle Track Loop, IEEE Trans, 1972, V. AES-8, No 3, 306-318.

      [19] Polyak B. P. (1980), Robust Adaptation Algorithms, Automation and Remote Control, No.10, 91-97.

      [20] Cherniha, R., & Serov, M. (2006). Symmetries, ansätze and exact solutions of nonlinear second-order evolution equations with convection terms, II. European Journal of Applied Mathematics, 17(5), 597-605. https://doi.org/10.1017/S0956792506006681

      [21] Popova, A. V., Kremenetsky, V. G., Solov'ev, V. V., Chernenko, L. A., Kremenetskaya, O. V., Fofanov, A. D., & Kuznetsov, S. A. (2010). Standard rate constants of charge transfer for nb(V)/Nb(IV) redox couple in chloride-fluoride melts: Experimental and calculation methods. Russian Journal of Electrochemistry, 46(6), 671-679. https://doi.org/10.1134/S1023193510060121

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  • How to Cite

    Shefer, O., Shulha, O., Ichanska, N., & Kozelkova, C. (2018). Synthesis of the Algorithm of Adaptive Compensation of Nonlinear Distortions for Informational Systems. International Journal of Engineering & Technology, 7(4.8), 509-516. https://doi.org/10.14419/ijet.v7i4.8.27297