Zhurnal Radioelektroniki - Journal of Radio Electronics. eISSN 1684-1719. 2022. №2
Contents

Full text in Russian (pdf)

DOI: https://doi.org/10.30898/1684-1719.2022.2.4

UDC: 004.5

SEMANTIC INTEROPERABILITY
OF HUMAN-MACHINE INTERFACES
IN NET-CENTRIC SYSTEMS

S.I. Makarenko

St. Petersburg Federal research center of the Russian Academy of Sciences
197376, Saint Petersburg, 14th Linia, 39

The paper was received February 20, 2022

Abstract. In the situation of transition from information and control systems to a net-centric architecture and development of net-centric information and control system, the relevance of interoperability assurance in such systems is increasing. Interoperability has to be provided at three levels: technical, semantic and organizational in accordance with Russia's state standard no. 55062-2012. Main thesis of the semantic interoperability concept is proposed in other author’s papers on basis of a multi-agent approach and a systems, capabilities, operations, programs, and enterprises model for interoperability assessment. In this concept, the interaction on the semantic level in net-centric systems is formalized on basis of various types of agents: human agents and technical agents. This paper is focused the features of semantic interoperability of human-machine interfaces for interaction on directions: “human agent - technical agent” and “human agent - technical agents - human agent”.

Key words: interoperability, net-centric system, agent, human-machine interaction, human-machine interfaces, semantic compatibility.

Financing: The results presented in this paper were funded under the state budget research subject NIR No. FFZF-2022-0004.

Corresponding author: Makarenko Sergey Ivanovich, mak-serg@yandex.ru

References

1. ISO/IEC/IEEE 24765:2017. Systems and software engineering. Vocabulary. ISO, 2017. 522 p.

2. GOST R 55062-2012. Informacionnye tekhnologii (IT). Sistemy promyshlennoj avtomatizacii i ih integraciya. Interoperabel'nost'. Osnovnye polozheniya [Information technology (IT). Industrial automation systems and their integration. Interoperability. Fundamentals]. Moscow, Standartinform Publ. 2014. 12 p. (in Russian)

3. Kozlov S.V., Makarenko S.I., Oleinikov A.Ya., Rastyagaev D.V., Chernitskaya T.E. Interoperability problem in net-central management systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2019. № 12. P. 16. https://doi.org/10.30898/1684-1719.2019.12.4 (in Russian)

4. Frangulova Е.V. Classification of approaches to integration and interoperability of information systems. Vestnik Astrakhanskogo tekhnicheskogo universiteta [Bulletin of Astrakhan Article Technical University]. 2010. №2. P.176-180 (in Russian)

5. Trubnikova E.I. Strategy for interoperability of products in terms of integration of producers. Vestnik Samarskogo gosudarstvennogo universiteta ekonomiki [Vestnik of Samara State University of Economics]. 2010. №12 (74). P.84-89. (in Russian)

6. Chernitskaya T.E., Makarenko S.I., Rastyagaev D.V. Aspects of information assurance within net-centric information and control systems interoperability evaluation. Vestnik Rossiiskogo novogo universiteta. Seriya: Slozhnye sistemy: modeli, analiz i upravlenie. [Bulletin of the Russian New University. Series: Complex systems: models, analysis and control]. 2020. №4. P.113-121. https://doi.org/10.25586/RNU.V9187.20.04.P.113 (in Russian)

7. Makarenko S.I., Oleynikov A.Y., Chernitskaya T.E. Models of interoperability assessment for information systems. Sistemy upravleniya, svyazi i bezopasnosti [Systems of Control, Communication and Security]. 2019. №4. P.215-245. https://doi.org/10.24411/2410-9916-2019-10408 (in Russian)

8. Masloboev А.V. Interoperability support facilities for network-centric control systems of regional security. Reabilitatsia i kachestvo kompleksnukh system [Reliability and quality of complex systems]. 2020. №1 (29). P.91-105. https://doi.org/10.21685/2307-4205-2020-1-11 (in Russian)

9. Masloboev А.V. Information system interoperability support of regional situational centers: problems and technologies. Vestnik informatsionnykh tekhnologii [Information technology Bulletin]. 2020. V.24. №2. P.107-119 (in Russian)

10. Aristov A.V. System of forming standardizied profiles interoperability. Vestnik Voronezhskogo gosudarstvennogo tekhnicheskogo universiteta [Bulletin of Voronezh state technical University]. 2015. V.11. № 4. P.40-43 (in Russian)

11. Anikin D.V. Evaluation criteria of interoperability set by the decision-making conditions. Vestnik MGSU. [Bulletin of MGSU] 2013. №10. P.249-257 (in Russian)

12. Malshakov G.V. Complex of achievement of interoperability of applied software. XXI vek: itogi proshlogo i problemy nastoyashchego plyus [XXI Century: Resumes of the Past and Challenges of the Present plus]. 2019. V.8. №4 (48). P.83-88 (in Russian)

13. Grishencev A.Yu., Korobejnikov A.G., Dukelskiy K.V. Method of numerical estimation of technical interoperability. Kibernetika i programmirovanie [Cybernetics and programming]. 2017. №3. P.23-38. https://doi.org/10.25136/2306-4196.2017.3.23540 (in Russian)

14. Grishentcev A.U., Korobeynikov A.G. Interoperability tools in distributed geoinformation systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2015. №3. P.19. http://jre.cplire.ru/win/mar15/7/text.pdf (in Russian)

15. Golovin S.A., Andrianova E.G., Gudkova O.K., Laptev A.N. The methodology of the development of profiles of IT standards to provide the interoperability of complex distributed systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2014. №12. P.25. http://jre.cplire.ru/jre/dec14/16/text.html (in Russian)

16. Gulyaev Yu.V., Zhuravliov E.E., Oleinkov A.Ya. The methodology of standardization for address the interoperability of information systems of broad classes. Zhurnal radioelectroniki [Journal of Radio Electronics]. 2012. №3. http://jre.cplire.ru/jre/mar12/2/text.pdf (in Russian)

17. Bashlykova A.A., Kozlov S.V., Makarenko S.I., Oleynikov A.Ya., Fomin I.A. An approach to ensuring interoperability in network-centric control systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2020. №6. P.15. https://doi.org/10.30898/1684-1719.2019.12.4 (in Russian)

18. Chernitskaya T.E., Makareno S.I., Rastyagaev D.V. Aspects of autonomic management, decision-making and networking within net-centric information and control systems interoperability evaluation. Vestnik Rossiiskogo novogo universiteta. Seriya: Slozhnye sistemy: modeli, analiz i upravlenie [Bulletin of Russian New University. Series Complex systems: models, analysis, management]. 2020. №3. P.138-145. https://doi.org/10.25586/RNU.V9187.20.03.P.138 (in Russian)

19. Oleinikov A.Ya., Rastyagaev D.V., Fomin I.A. Basic provisions of the concept of ensuring the interoperability of the network information and control systems. Vestnik Rossiiskogo novogo universiteta. Seriya: Slozhnye sistemy: modeli, analiz i upravlenie [Bulletin of Russian New University. Series Complex systems: models, analysis, management]. 2020. №3. P.122-131. https://doi.org/10.25586/RNU.V9187.20.03.P.122 (in Russian)

20. Oleynikov A.Ya. Current status of the interoperability problem. IT-Standart. [IT-Standard]. 2020. V.23. №2. P.37-42 (in Russian)

21. Kozlov S.V. Scientific and methodological problems of ensuring interoperability of network-centric systems based on complex application of process and project management methods. IT-Standart. [IT-Standard]. 2020. V.22. №1. P.17-24 (in Russian)

22. Kozlov S.V., Kubankov A.N. Process bases of integration and complex development of information, control, robotic, telecommunication systems. Naukoemkie tekhnologii v kosmicheskikh issledovaniyakh Zemli. [H&ES Research]. 2020. V.12. №1. P.23-31. https://doi.org/10.36724/2409-5419-2020-12-1-23-31 (in Russian)

23. Bashlykova A.A., Zatsarinny A.A., Kamenshchikov A.A., Kozlov S.V., Oleynikov A.Ya., Chusov I.I. Interoperability as a scientific, methodical, and regulatory base of information and telecommunication systems seamless integration. Sistemy i sredstva informatiki. [Systems and Means of Informatics]. 2018. V.28. №4. P.61-72. https://doi.org/10.14357/08696527180407 (in Russian)

24. Makarenko S.I., Chernitskaya T.E. Aspects of compatibility of network protocols, interfaces and requirements for quality of service in the framework of assessing the interoperability of network-centric information management systems. Zhurnal radioelectroniki [Journal of Radio Electronics]. 2020. №10. P.7. https://doi.org/10.30898/1684-1719.2020.10.4 (in Russian)

25. Kupriyanov A.A. Aspects of interoperability of automated systems. Avtomatizatsiya protsessov upravleniya [Automation of Control Processes]. 2009. №4. P. 40-49 (in Russian)

26. Kupriyanov A.A. Network-Centric Warfare and Some Questions of Interoperability of Computer-Aided Systems. Avtomatizatsiya protsessov upravleniya [Automation of Control Processes]. 2011. №3. P.82-97 (in Russian)

27. Osipenkov M.N., Uzjakaev I.N. The main problems of achieving the interoperability of information systems of state and military administration bodies in solving defense tasks. Voennaya mysl' [Military Thought]. 2020. №5. P.143-149. (in Russian)

28. Kamenschikov A.A., Oleinikov A.Ya., Chusov I.I., Shirobokova T.D. Interoperability problem in defence information systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2016. №11. http://jre.cplire.ru/jre/nov16/8/text.pdf (in Russian)

29. Bashlykova A.A., Oleinikov A.Ya. Interoperability and information confrontation in military field. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2016. №12. http://jre.cplire.ru/jre/dec16/14/text.pdf (in Russian)

30. Bashlykova A.A., Kamenshchikov A.A., Oleynikov A.Ya. Ensuring interoperability as a means of seamless integration of functional subsystems as part of advanced automated military systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2018. №9. https://doi.org/10.30898/1684-1719.2018.9.11 (in Russian)

31. Tarasov B.V., Ionov S.V., Glumova A.A. Semantic interoperability of diverse information. Informatizatsiya i kommunikatsii [Informatization and communication]. 2020. №6. P.79-82. (in Russian)

32. Akatkin Yu.M., Yasinovskaya E.D. Cifrovaya transformaciya gosudarstvennogo upravleniya: Datacentrichnost' i semanticheskaya interoperabel'nost' [Digital transformation of public administration: Datacentricity and semantic interoperability]. Edit. by V.A. Konyavskogo. Moscow, Lenand Publ., 2019. 724 p. (in Russian)

33. Pavlygin E.D., Korsunskij A.S., Kuprijanov A.A., Melnichenko A.S. FCMI-approach to assessing the interoperability of an integrated ship's combat control system. Avtomatizatsiya protsessov upravleniya [Automation of Control Processes]. 2015. V.42. №4. P.4-14. (in Russian)

34. Kashevnik A.M. An approach to semantic interoperability support between mobile robots for coalition formation. Informatsionnye tekhnologii i vychislitelnye sistemy. [Information technology and computing systems]. 2017. №1. P.90-100. (in Russian)

35. Systems, Capabilities, Operations, Programs, and Enterprises (SCOPE) Model for Interoperability Assessment. Version 1.0. NCOIC. 2008. 154 p.

36. Makarenko S.I., Solovieva O.S. Basic provisions of the concept of semantic interoperability of net-centric systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2021. №4. https://doi.org/10.30898/1684-1719.2021.4.10 (in Russian)

37. Makarenko S.I., Solovieva O.S. Semantic interoperability of interaction of elements in network-centric systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2021. №6. https://doi.org/10.30898/1684-1719.2021.6.3 (in Russian)

38. Makarenko S.I. Semantic interoperability human agents in net-centric systems. Zhurnal radioelectroniki [Journal of Radio Electronics] [online]. 2022. №1. https://doi.org/10.30898/1684-1719.2022.1.1 (in Russian)

39. Makarenko S. I. Spravochnik nauchnyh terminov i oboznachenij [Handbook of scientific terms and designations]. Saint Petersburg, Naukoemkie Tekhnologii Publ., 2019. 254 p. (in Russian)

40. Makarenko S.I. On some parameters of information search and processing while ensuring the technical interoperability of network-centric systems. Zhurnal radioelectroniki [Journal of Radio Electronics]. 2021. №3. https://doi.org/10.30898/1684-1719.2021.3.5 (in Russian)

41. ISO/TR 9241-100:2010 Ergonomics of human-system interaction. 2010. https://www.iso.org/standard/52712.html

42. Yuschenko A.S. Human-robot: compatibility and cooperation. Robotics and Technical Cybernetics. [Robotics and technical cybernetics]. 2014. №1 (2). P.4-9. (in Russian)

43. Doronina E.G. Cheloveko-mashinnoe vzaimodeistvie [Human-machine interaction]. Staryi Oskol, National University of Science and Technology MISIS. 2014. 81 p. (in Russian)

44. Merzlyakova E.Yu. Cheloveko-mashinnoe vzaimodeistvie [Human-machine interaction]. Novosibirsk, Siberian State University of Telecommunications and Informatics. 2009. 49 p. (in Russian)

45. Kolomeec M.V., Chechulin A.A., Kotenko I.V. Review of methodological primitives for the phased construction of data visualization model. Trudy SPIIRAN [SPIIRAS Proceedings]. 2015. №5 (42). P.232-257. (in Russian)

46. Novikova E.S., Kotenko I.V. Open challenges in visual analytics for security information and event management. Informatsionno-upravliaiushchie sistemy [Information and Control Systems]. 2019. №2. P.57-67. https://doi.org/10.31799/16848853-2019-2-57-67 (in Russian)

47. Kotenko I.V., Kolomeec M.V., Zhernova K.N., Chechulin A.A. Visual analytics for information security: areas of application, tasks, visualization models. Voprosy kiberbezopasnosti. [Cyber security issues]. 2021. №4 (44). P.2-15. https://doi.org/10.21681/2311-3456-2021-4-2-15 (in Russian)

48. Laptev V.V. Proektnye osnovy infografiki [Design basics of infographics]. Moscow, AVATAR Publ. 2016. 287 p. (in Russian)

49. Sergeev S.F. Inzhenernaya psikhologiya i ergonomika [Engineering Psychology and Ergonomics]. Moscow, Research Institute of School Technologies. 2008. 176 p. (in Russian)

50. Makarenko S.I. Modeli sistemy svjazi v uslovijah prednamerennyh destabilizirujushhih vozdejstvij i vedenija razvedki. Monografija [Models of communication systems in conditions of deliberate destabilizing impacts and intelligence]. Monograph. Saint Petersburg, Naukoemkie Tehnologii Publ. 2020. 337 p. (in Russian)

51. Raskin Dzh. Interfeis. Novye napravleniya v proektirovanii komp'yuternykh system [Interface. New directions in the design of computer systems]. Moscow, Simvol-Plyus Publ., 2005. 69 p. (in Russian)

For citation:

Makarenko S.I. Semantic interoperability of human-machine interfaces in net-centric systems. Zhurnal radioelektroniki [Journal of Radio Electronics] [online]. 2022. №2. https://doi.org/10.30898/1684-1719.2022.2.4 (In Russian)