https://oldena.lpnu.ua/handle/ntb/56265| Title: | Some Practical Issues of Creating Teaching Complexes Providing Informational Support for Multilevel Diagnostic Systems for Electrotechnical Equipment |
| Other Titles: | Деякі практичні питання побудови навчаючих сукупностей для інформаційного забезпечення багаторівневих систем діагностування електротехнічного обладнання |
| Authors: | Мислович, Михайло Зварич, Валерій Остапчук, Людмила Гижко, Юрій Гуторова, Марина Myslovych, Mykhailo Zvarych, Valerij Ostapchuk, Ludviga Hyzhko, Yuriy Hutorova, Maryna |
| Affiliation: | Institute of Electrodynamics of the National Academy of Sciences of Ukraine |
| Bibliographic description (Ukraine): | Some Practical Issues of Creating Teaching Complexes Providing Informational Support for Multilevel Diagnostic Systems for Electrotechnical Equipment / Mykhailo Myslovych, Valerij Zvarych, Ludviga Ostapchuk, Yuriy Hyzhko, Maryna Hutorova // Computational Problems of Electrical Engineering. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 10. — No 2. — P. 21–27. |
| Bibliographic description (International): | Some Practical Issues of Creating Teaching Complexes Providing Informational Support for Multilevel Diagnostic Systems for Electrotechnical Equipment / Mykhailo Myslovych, Valerij Zvarych, Ludviga Ostapchuk, Yuriy Hyzhko, Maryna Hutorova // Computational Problems of Electrical Engineering. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 10. — No 2. — P. 21–27. |
| Is part of: | Computational Problems of Electrical Engineering, 2 (10), 2020 |
| Issue: | 2 |
| Issue Date: | 24-Feb-2020 |
| Publisher: | Видавництво Львівської політехніки Lviv Politechnic Publishing House |
| Place of the edition/event: | Львів Lviv |
| Keywords: | electrotechnical equipment diagnostical system Smart Grid concept teaching complex |
| Number of pages: | 7 |
| Page range: | 21-27 |
| Start page: | 21 |
| End page: | 27 |
| Abstract: | На основі алгоритмів функціонування багатовимірної
системи діагностики електротехнічного обладнання за
технологією Smart Grid, що викладено в першій частині
даної статті наведено приклади з формування навчаючих
сукупностей, які є інформаційною базою для наступної
процедури побудови розв’язуючих правил з діагностування і класифікації можливих дефектів вузлів електротехнічного обладнання. On the basis of the algorithms of functioning the multidimensional system for diagnostics of electrotechnical equipment via Smart Grid technology described in the previous paper, the examples of forming teaching complexes which are an information basis for further procedure of creating the rules of diagnostics and classification of possible defects of the electrotechnical equipment units are given. |
| URI: | https://ena.lpnu.ua/handle/ntb/56265 |
| Copyright owner: | © Національний університет “Львівська політехніка”, 2020 |
| References (Ukraine): | [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. 5. [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. [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. [13]. M. Myslovych, Y. Hyzhko, M. Hutorova, L. Ostapchuk, “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. [14].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. [15]. F. Immovilli and M. Cocconcelli, “Experimental Investigation of Shaft Radial Load Effect on Bearing Fault Signatures Detection”, IEEE Transactions on Industry Applications, vol. 53, no. 3, pp. 2721–2729, May/June 2017. |
| References (International): | [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. 5. [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. [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. [13]. M. Myslovych, Y. Hyzhko, M. Hutorova, L. Ostapchuk, "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. [14].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. [15]. F. Immovilli and M. Cocconcelli, "Experimental Investigation of Shaft Radial Load Effect on Bearing Fault Signatures Detection", IEEE Transactions on Industry Applications, vol. 53, no. 3, pp. 2721–2729, May/June 2017. |
| Content type: | Article |
| Appears in Collections: | Computational Problems Of Electrical Engineering. – 2020 – Vol. 10, No. 2 |
| File | Description | Size | Format | |
|---|---|---|---|---|
| 2020v10n2_Myslovych_M-Some_Practical_Issues_of_21-27.pdf | 1.7 MB | Adobe PDF | View/Open | |
| 2020v10n2_Myslovych_M-Some_Practical_Issues_of_21-27__COVER.png | 1.4 MB | image/png | View/Open |
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.