Some issues of informational support for multilevel diagnostic systems of electrotechnical equipment

2020;
: pp. 19-26
1
Institute of Electrodynamics of the National Academy of Science of Ukraine
2
Institute of Electrodynamics of the National Academy of Sciences of Ukraine
3
Institute of Electrodynamics of the National Academy of Sciences of Ukraine
4
Institute of Electrodynamics of the National Academy of Sciences of Ukraine
5
Institute of Electrodynamics of the National Academy of Sciences of Ukraine

Algorithmic software for the operation of informational measuring diagnostic systems according to the Smart Grid technology and with the conditional division of the electrotechnical equipment into hierarchical levels is proposed.

  1. S.V.Babak, M.V.Myslovych, and R.M.Sysak, Statistical diagnostics of electrotechnical equipment. Kyiv: Institute of electrodynamics of NAS of Ukraine. p. 456, 2015.
  2. S.M. Hercyk, Forming the teaching complexes for electrotechnical equipment taking into account its operational modes. Works of Institute of electrodynamics of NAS of Ukraine, 2019. Issue 52, pp.54–61. https://doi.org/10.15407/publishing2019.52.054
  3. S.M.Hercyk and M.V. Myslovych, “Models of forming the teaching complexes for diagnostics of electrotechnical equipment taking into account its operational modes”, Metrology and devices, vol. 67, no. 5-1, pp.94–97, 2017.
  4. S.M.Hercyk, Yu. I. Hyzhko, M.V.Myslovych, L.B.Ostapchuk, and R.M. Sysak,  “Algorithms of functioning and software of multilevel system of monitoring the state and technical diagnostics of electrical power equipment”, Technical electrodynamics, no. 4. pp.86–88, 2016.
  5. V.V. Iljin, “Introduction to Smart Grid”, Ventilation, Heating, Conditioning, heat supply and building thermal physics (AVHC), no. 7. pp.76–86, 2012.
  6. B.H.Marchenko and M.V. Myslovych, Vibrodiagnostics of bearing units of electrical machines. Kyiv: Scientific thought, p.196, 1992.
  7. M.V.Myslovych and R.M. Sysak, “About some peculiarities of creating the intellectual multilevel systems of technical diagnostics of electrical power object”, Technical electrodynamics, no.1, pp.78-85, 2015.
  8. B.S. Stohniy, O.V. Kyrylenko, and O.F. Butkevych, “Sopel M.F. Informational support for controlling electrical power systems”, Power industry: economics, technology, ecology, no.1. pp.13–22, 2012.
  9. B.S.Stohniy, O.V.Kyrylenko, and S.P.Denysiuk, “Intelligent electrical networks of electrical power systems and their technological support”, Technical electrodynamics, no. 6. pp.44–50, 2010.
  10. B.S.Stohniy, O.V.Kyrylenko, A.V.Prakhovnyk, and S.P. Denysiuk, “Evolution of intelligent electrical networks and their prospects in Ukraine”, Technical Electrodynamics, no.5,  pp.52–67, 2012.
  11. V.P.Babak, S.V.Babak, M.V.Myslovych, A.O.Zaporozhets, and V.M. Zvaritch, Diagnostic Systems For Energy Equipment. Erfurt: Springer Nature, (Switzerland), p. 133, 2020. 
    https://doi.org/10.1007/978-3-030-44443-3
  12. V.P.Babak, S.V.Babak, M.V.Myslovych, A.O.Zaporozhets, and V.M. Zvaritch, Information Provision of   Diagnostic Systems for Energy Facilities , Entitled by corr. Member of NAS V.P. Babak, Kyiv Academperiodyka, p. 134, 2018. https://doi.org/10.15407/akademperiodyka.353.134
  13.  L. “On Peculiarities of Development of Information Support for Technical Diagnostics Multilevel Systems of Electrical Equipment”, Computational Problems of Electrical Engineering, vol.9, no.2, pp. 34-41, 2019. https://doi.org/10.23939/jcpee2019.02.034
  14. V.Zvaritch, and E.Glazkova,Some Singularities of Kernels of Linear AR and ARMA Processes and Their Applications to Simulation of Information Signals”, Computational Problems of Electrical Engineering, vol.5, no.1, pp.71-74, 2015.
  15. S.A.Mclnerny and Y.Dai, “Basic Vibration Signal Processing for Bearing Fault Detection”, IEEE Transactions on Education, vol. 46, no.1, pp.149-156, 2003.
    https://doi.org/10.1109/TE.2002.808234