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Some aspects of autonomous cyber-physical systems diagnostics by their qualitative state

НазваSome aspects of autonomous cyber-physical systems diagnostics by their qualitative state
Назва англійськоюSome aspects of autonomous cyber-physical systems diagnostics by their qualitative state
АвториSerhii Volkov, Alla Prokopenko, Suliko Asabashvili, Kyrylo Volkov
ПринадлежністьState University of Intellectual Technologies and Communications of Ukraine, Odesa, Ukraine Odesa I. Mechnykov National University of Ukraine, Odesa, Ukraine
Бібліографічний описSome aspects of autonomous cyber-physical systems diagnostics by their qualitative state / Serhii Volkov, Alla Prokopenko, Suliko Asabashvili, Kyrylo Volkov // Scientific Journal of TNTU. — Tern.: TNTU, 2022. — Vol 108. — No 4. — P. 122–130.
Bibliographic description:Volkov S., Prokopenko A., Asabashvili S., Volkov K. (2022) Some aspects of autonomous cyber-physical systems diagnostics by their qualitative state. Scientific Journal of TNTU (Tern.), vol 108, no 4, pp. 122–130.
DOI: https://doi.org/10.33108/visnyk_tntu2022.04.122
УДК

004.5+004.8

Ключові слова

cyber-physical system, autonomy, self-organization, evolutionary transformations, monitoring and diagnostic system, quality assessment, algorithms for evaluating the results of transformations.

Recent trends in the development of cyber-physical systems are aimed at their autonomy and self-organization. In this context, the question of monitoring and diagnosing possible evolutionary changes that carry certain risks is very important. This study aims to analyze and determine the approach to monitoring and diagnosing autonomous cyber-physical systems according to their qualitative state. The work of monitoring and diagnostic systems and their interaction with autonomous cyber-physical systems in different scenarios in making decisions about evolutionary transformations by the latter are considered. The ways of further development of monitoring and diagnostic systems based on the assessment of the qualitative state of the studied system are determined.

ISSN:2522-4433
Перелік літератури

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2.   Khakhanov V. I., Obryzan V. I., Mishchenko O. S., Fylypenko I. V. Kiberfizychni systemy yak tekhnolohii kiberupravlinnia (analitychnyi ohliad). Radioelektronika i informatyka. 2014. No. 1. Р. 39–45. [In Ukrainian].
3.   Melnyk A. O. Kiberfizychni systemy: problemy stvorennia ta napriamy rozvytku. Visnyk Natsionalnoho universytetu “Lvivska politekhnika”. Kompiuterni systemy ta merezhi. 2014. No. 806. Р. 154–161. [In Ukrainian].
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5.   Carlos Gershenson, Vito Trianni, Justin Werfel, Hiroki Sayama; Self-Organization and Artificial Life. Artif Life 2020. No. 26 (3). Р. 391–408.
6.   Kernbach S (2008) Structural Self-organization in Multi-Agents and Multi-Robotic Systems, Logos Verlag, Berlin.
7.   Gershenson C. Design and Control of Self-organizing Systems, CopIt ArXives, Mexico. TS0002EN, 2007.
8.   Riabenkyi V. M., Dorohan O. I., Ushkarenko O. O. Avtomatyzatsiia protsesiv monitorynhu parametriv ta keruvannia avtonomnymy elektroenerhetychnymy systemamy z dyzel-heneratornymy ahrehatamy: monohrafiia. Mykolaiv: NUK, 2017. 175 р.
9.   Volkov S. L., Shcherbyna Yu. V. Zahalni problemy rozvytku kiberfizychnykh system. Nauka i tekhnika Povitrianykh Syl Zbroinykh Syl Ukrainy. Zhurnal Kharkivskoho natsionalnoho universytetu Povitrianykh Syl im. I. Kozheduba. 2017. No. 4 (29). Р. 54–59. [In Ukrainian].
10. Principles of self-organizing dynamic system" в “J. Gen. Psychol”. 1947. Vol. 37. P. 125–153.
11. DSTU HOST 2.001:2006 Yedyna systema konstruktorskoi dokumentatsii. Zahalni polozhennia (HOST 2.001-93, IDT). [In Ukrainian].
12. Forsberg K., Mooz H. and Cotterman, H. “Visualizing Project Management”, John Wiley & Sons, Inc., 2000.
13. Online Etymology Dictionary. URL: https://en.wikipedia.org/wiki/Online_Etymology_Dictionary.
14. DSTU 2389-94 Tekhnichne diahnostuvannia ta kontrol tekhnichnoho stanu. Terminy ta vyznachennia. [In Ukrainian].
15. Volkov S. L., Kyselova O. I. Filosofskyi aspekt informatsiinoho stanu shtuchnykh system. Metrolohiia ta prylady. 2017. No. 5. Р. 119–122. [In Ukrainian].
16. Volkov S. Set-theoretic model of the information state of the industrial cyberphysical system. Scientific journal of the Ternopil Ivan Pul’uj National Technical University. 2018. No. 1 (89). Р. 132–138. [In Ukrainian]
17. DSTU ISO/IEC/IEEE 15288:2016 Inzheneriia system i prohramnoho zabezpechennia. Protsesy zhyttievoho tsyklu system (ISO/IEC/IEEE  15288:2015, IDT). [In Ukrainian].
18. Asabashvili S. D., Volkov S. L. Model rozpodilenoho zboru danykh v diahnostychnykh systemakh. “Technical Using of Measurement-2020”: Tezy dopovidei VI Vseukrainskoi naukovo-tekhnichnoi konferentsii molodykh vchenykh u tsaryni informatsiino-vymiriuvalnykh tekhnolohii ta metrolohii, 4–7 liutoho 2020 roku; Vidp. za vypusk Volodarskyi Ye. T. Akademiia metrolohii Ukrainy. Lviv: TOV “Halytska vydavnycha spilka”, 2020. 176 р. [In Ukrainian].
19. Volkov S. L., Asabashvili S. D., Balan M. M. Avtomatychna systema z rozpodilenym obroblenniam informatsii dlia formuvannia baz danykh informatsiino-vymiriuvalnykh kompleksiv: pat. Ukrainy na vynakhid №125011; zareiestrovano v derzhavnomu reiestri patentiv Ukrainy 25.04.2018. [In Ukrainian].
20. Volkov S., Kolomiets L., Hrabovskyi O. A Three-Aspects Approach for Technical Systems Quality Evaluation. Current Trends in Communication and Information Technologies. In: Vorobiyenko P., Ilchenko M., Strelkovska I. (eds). Springer. 2021. Lecture Notes in Networks and Systems. Vol. 212. Р. 45–57.

 

References:

1. Meitus V. Iu., Morozova H. I., Taran L. Iu., Kozlova V. P., Maidaniuk N. V. Kiberfizychni systemy yak osnova intelektualizatsii “Rozumnykh” pidpryiemstv. Upravliaiuchi systemy i mashyny. 2019. No. 4. Р. 14–26. [In Ukrainian].
2.   Khakhanov V. I., Obryzan V. I., Mishchenko O. S., Fylypenko I. V. Kiberfizychni systemy yak tekhnolohii kiberupravlinnia (analitychnyi ohliad). Radioelektronika i informatyka. 2014. No. 1. Р. 39–45. [In Ukrainian].
3.   Melnyk A. O. Kiberfizychni systemy: problemy stvorennia ta napriamy rozvytku. Visnyk Natsionalnoho universytetu “Lvivska politekhnika”. Kompiuterni systemy ta merezhi. 2014. No. 806. Р. 154–161. [In Ukrainian].
4.   Bochkarov O. Iu., Holembo V. A. Vykorystannia intelektualnykh tekhnolohii zboru danykh u avtonomnykh kiberfizychnykh systemakh. Visnyk Natsionalnoho universytetu “Lvivska politekhnika” “Kompiuterni systemy ta merezhi”. 2015. No. 830. Р. 7–11. [In Ukrainian].
5.   Carlos Gershenson, Vito Trianni, Justin Werfel, Hiroki Sayama; Self-Organization and Artificial Life. Artif Life 2020. No. 26 (3). Р. 391–408.
6.   Kernbach S (2008) Structural Self-organization in Multi-Agents and Multi-Robotic Systems, Logos Verlag, Berlin.
7.   Gershenson C. Design and Control of Self-organizing Systems, CopIt ArXives, Mexico. TS0002EN, 2007.
8.   Riabenkyi V. M., Dorohan O. I., Ushkarenko O. O. Avtomatyzatsiia protsesiv monitorynhu parametriv ta keruvannia avtonomnymy elektroenerhetychnymy systemamy z dyzel-heneratornymy ahrehatamy: monohrafiia. Mykolaiv: NUK, 2017. 175 р.
9.   Volkov S. L., Shcherbyna Yu. V. Zahalni problemy rozvytku kiberfizychnykh system. Nauka i tekhnika Povitrianykh Syl Zbroinykh Syl Ukrainy. Zhurnal Kharkivskoho natsionalnoho universytetu Povitrianykh Syl im. I. Kozheduba. 2017. No. 4 (29). Р. 54–59. [In Ukrainian].
10. Principles of self-organizing dynamic system" в “J. Gen. Psychol”. 1947. Vol. 37. P. 125–153.
11. DSTU HOST 2.001:2006 Yedyna systema konstruktorskoi dokumentatsii. Zahalni polozhennia (HOST 2.001-93, IDT). [In Ukrainian].
12. Forsberg K., Mooz H. and Cotterman, H. “Visualizing Project Management”, John Wiley & Sons, Inc., 2000.
13. Online Etymology Dictionary. URL: https://en.wikipedia.org/wiki/Online_Etymology_Dictionary.
14. DSTU 2389-94 Tekhnichne diahnostuvannia ta kontrol tekhnichnoho stanu. Terminy ta vyznachennia. [In Ukrainian].
15. Volkov S. L., Kyselova O. I. Filosofskyi aspekt informatsiinoho stanu shtuchnykh system. Metrolohiia ta prylady. 2017. No. 5. Р. 119–122. [In Ukrainian].
16. Volkov S. Set-theoretic model of the information state of the industrial cyberphysical system. Scientific journal of the Ternopil Ivan Pul’uj National Technical University. 2018. No. 1 (89). Р. 132–138. [In Ukrainian]
17. DSTU ISO/IEC/IEEE 15288:2016 Inzheneriia system i prohramnoho zabezpechennia. Protsesy zhyttievoho tsyklu system (ISO/IEC/IEEE  15288:2015, IDT). [In Ukrainian].
18. Asabashvili S. D., Volkov S. L. Model rozpodilenoho zboru danykh v diahnostychnykh systemakh. “Technical Using of Measurement-2020”: Tezy dopovidei VI Vseukrainskoi naukovo-tekhnichnoi konferentsii molodykh vchenykh u tsaryni informatsiino-vymiriuvalnykh tekhnolohii ta metrolohii, 4–7 liutoho 2020 roku; Vidp. za vypusk Volodarskyi Ye. T. Akademiia metrolohii Ukrainy. Lviv: TOV “Halytska vydavnycha spilka”, 2020. 176 р. [In Ukrainian].
19. Volkov S. L., Asabashvili S. D., Balan M. M. Avtomatychna systema z rozpodilenym obroblenniam informatsii dlia formuvannia baz danykh informatsiino-vymiriuvalnykh kompleksiv: pat. Ukrainy na vynakhid №125011; zareiestrovano v derzhavnomu reiestri patentiv Ukrainy 25.04.2018. [In Ukrainian].
20. Volkov S., Kolomiets L., Hrabovskyi O. A Three-Aspects Approach for Technical Systems Quality Evaluation. Current Trends in Communication and Information Technologies. In: Vorobiyenko P., Ilchenko M., Strelkovska I. (eds). Springer. 2021. Lecture Notes in Networks and Systems. Vol. 212. Р. 45–57.

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