Control Systems and Computers

https://doi.org/10.15407/csc.2022.01.003

Control Systems and Computers, 2022, Issue 1 (297), pp. 3-14.

UDC 004.8

V.I. Gritsenko,  Corresponding Member of the Ukrainian Academy of Sciences, Honorary Director, International Research and Training Center for Information Technologies and Systems of the NAS and MES of Ukraine, Acad. Glushkov ave., 40, Kiev, 03187, Ukraine, vig@irtc.org.ua

The State of Art and Prospect Development for the Intelligent Information Technologies. To the 25th Anniversary of the International Research
and Training Center Information
Technologies and Systems

Introduction. The International Research and Training Center was created 25 years ago as part of the Department of Informatics of the National Academy of Sciences and the Ministry of Science and Education of Ukraine in 1997. The principal lines of investigation of the International Center are information technologies and their applications. Information technology is a set of software and hardware tools that has effect data in order to obtain an end product that has the properties and capabilities to generate new knowledge and study complex phenomena and processes based on it.

The purpose of the article is to demonstrate the achievements of the International Centre over the 25 years, to show the current situation and prospects of its developments.

Methods. The formation and development of the general theory of intelligent information technologies and their use in pattern recognition, complex investigation of the text and speech information, including the semantic processing, evaluation, understanding, reforming, reliability and fast search, are being carried out at the International Center. The priority areas of intellectualization of the digital economy, technologies for data mining, choice and decision-making, models of interaction between digitalization and informatization of society are being explored. Conceptual models of digital medicine are being developed.

Results and Conclusion. The International Center has become a leading organization for the development of informatics and new intelligent information technologies and systems. His work is highly appreciated in the country and abroad. It should be noted the achievements of leading scientific schools, headed by prominent Ukrainian scientists, employees of the International Center: Academicians V.I. Skurikhin, O.H. Ivakhnenko, M.M. Amosov and O.O. Bakaev.

Research and development programs and plans are innovative and focused on solving scientific and technological problems of intellectualization and digital transformation. These problems of global importance form the basis of the short-term program as well as the concept of development of the activities of the International Center.

Keywords: intelligent information technologies, digitalization, informatization, digital medicine, pattern recognition.

 Download full text! (On Ukrainian)

Keywords: intelligent information technologies, digitalization, informatization, digital medicine, pattern recognition.

1. Gritsenko, V.I., Pan’shin, B.N., 1990. “Iskhodnaya kontseptsiya i opredeleniye ponyatiya informatsionnoy tekhnologii”. Vestn. Vsesoyuz. o-va informatiki i vychislitel’noy tekhniki. no 2, pp. 67-77 (In Russian).
2. Bioekomeditsina, 2001. Yedinoye informatsionnoye prostranstvo/ pod red. V.I.Gritsenko. K.: Nauk. dumka. 319 p (In Russian).
3. Schlesinger, M., Hlavach V., 2004. Desyat lektsyy po statystycheskomu y strukturnomu raspoznavanyyu, Naukova dumka, Kyiv, 545 p.
4. Vintsyuk T.K. Analiz, raspoznavaniye i intrpretatsiya rechevykh signalov. Kiyev: Naukova dumka. 1987, 262 p. (In Russian).
5. Gritsenko, V.I., Schlesinger, M.I., 2020. “Interrelation of Pattern Recognition, Machine Thinking and Learning Problems. Journal of Automation and Information Sciences”. Volume 52, Issue 5, 2020, pp. 51-78, DOI: 10.1615/JAutomatInfScien.v52.i5.50.
   https://doi.org/10.1615/JAutomatInfScien.v52.i5.50
6. Rossi, F., van Beek, P. Walsh, T., 2006. Handbook of Constraint programming. Foudations of Artificial Intelligence, Elsevier, 975 p.
7. Vintsyuk, T.K., Sazhok, M.M., Selyukh, R.A., Fedoryn, D.Ya., Yukhymenko, O.A., Robeyko, V.V., 2018. “Avtomatychne rozpiznavannya, rozuminnya ta syntez movlennyevykh syhnaliv v Ukrayini”. Upravlausie sistemy i masiny. no 6, pp. 7-24. (In Russian).
8. Anisimov, A.V., Marchenko, O.O., Kysenko, V.K., 2011. “Method for estimation of semantic relatedness of natural language words”. Kibernetyka ta Systemnyi Analiz. T. 47, no 4, pp. 18-27. (In Russian).
   https://doi.org/10.1007/s10559-011-9334-2
9. Amosov, N.M., Baidyk, T.N., Goltsev, A.D., Kasatkin, A.M., Kasatkina, L.M., Rachkovskij, D.A., 1991. Neurocomputers and Intelligent Robots. Kyiv: Nauk. Dumka. 1991. 269 p.(in Russian)
10. Goltsev, AD, 2005. Neural networks with ensemble organization. Kiev: Naukova Dumka, 200 p. (In Russian).
11. Gritsenko, V.I., Rachkovskij, D.A., Goltsev, A.D., Lukovych, V.V., Misuno, I.S., Revunova, E.G., Slipchenko, S.V., Sokolov, A.M., Talayev, S.A., 2013. “Neural distributed representation for intelligent information technologies and modeling of thinking”. Kibernetika i vycislitel’naa tehnika, V. 173, pp. 7-24. (in Russian).
12. Pavlov, V.V., Pavlova, S.V., 2015. Intellektual’noye upravleniye slozhnymi nelineynymi dinamicheskimi sistemami: analitika intellekta. Kiyev : Naukova dumka, 216 p. (In Russian).
13. Gritsenko, V.I., Volkov, O.Y., Komar, M.M., Bogachuk, Yu.P., 2018. “Intellectualization of Modern Systems of Automatic Control of Unmanned Aerial Vehicles”. Kibernetika i vycislitel’naa tehnika. 2018. 191, pp. 45-59.
    https://doi.org/10.15407/kvt191.01.045
14. Sukhoruchkina, O.N., 2007. “Struktury funktsional’noy organizatsii intellektualizirovannogo upravleniya mobil’noy sistemoy”. Upravlausie sistemy i masiny, no 3, pp. 26-33, 63. (In Russian).
15. Sukhoruchkina, O.N., Progonnyi, N.V., 2019. “Intelligent Control of Mobile Robot when Tracking a Moving Object”. Journal of Automation and Information Sciences, 51(11), pp. 50-62. DOI: 10.1615/JAutomatInfScien.v51.i11.50.
    https://doi.org/10.1615/JAutomatInfScien.v51.i11.50
16. Stepashko, V.S., 2016. “Conceptual Fundamentals of Intelligent Modeling”. Upravlausie sistemy i masiny. no 4, pp. 3-15. (In Russian).
    https://doi.org/10.15407/usim.2016.04.003
17. Timashova, L.A., 2017. “About Problems of Creation and Development of the Virtual Systems”. Upravlausie sistemy i masiny, no 2, pp. 74-82. (In Russian).
    https://doi.org/10.15407/usim.2017.02.074
18. Gritsenko, V.I., Bazan, L.I., 2017. “Digital Economy Transformation”. Upravlausie sistemy i masiny. no 6, pp. 3-16.
    https://doi.org/10.15407/usim.2017.06.003
19. Meitus, V.Yu., 2021. “Problems of construction of intelligent systems. Intelligent simulation”. Kibernetyka ta Systemnyi Analiz. 2021 . 4, pp. 3-17. (In Russian).
20. Fainzilberg, L.S., 2017. Osnovy fazagrafii, Osvita Ukrainy, Kyiv, 264 p. (In Russian).
21. Gritsenko, V.I., Fainzilberg, L. S., 2019. Intellektualnyye informatsionnyye tekhnologii v tsifrovoy meditsine na primere fazagrafii, Kyiv: Naukova Dumka, 423 p. (In Russian).
22. Orikhovska, K.B., Fainzilberg, L.S., 2017. “Comparative Analysis of Estimation Methods of The Physiological Signals Variability”. Kibernetika i vycislitel’naa tehnika. no 3 (89), pp. 5-28.
    https://doi.org/10.15407/kvt189.03.005
23. Fainzilberg, L.S. Sposib otsinyuvannya dynamichnoho ryadu kardiointervaliv za pulʹsovoyu khvyleyu. Patent Ukrayiny na korysnu modelʹ no 141353. Byul. no 7, 2020 (In Ukrainian).
24. Vovk, M.І., Kutsyak, A.A., Lauta, A.D., Ovcharenko, M.A., 2017. “Information Support of Researches on the Dynamics of Movement Restoration After the Stroke”. Cybernetics and Computer Engineering. no3 (189), pp. 61-78.
    https://doi.org/10.15407/kvt189.03.061
25. Kiforenko, S.I., Kotova, A.B., Lavrenyuk, N.V., Ivaskiva, E.Yu., 2015. “Diagnosis of Diabetes. Advanced Information Technology”. Upravlausie sistemy i masiny. no4, pp. 67-71.
26. Kiforenko, S.I., Hontar, T.M., Ivaskiva, K.Y., Obelets, T.A., 2018. “Informational Decision Support System for Monitoring and Correcting Somatic Health”. Kibernetika i vycislitel’naa tehnika. 2018. Вып. 193, pp. 73-94 (In Russian).
    https://doi.org/10.15407/kvt192.03.083
27. Liabakh, K.G., 2018. “Oxidative power and intracellular distribution of mitochondria regulate cell oxygen regime under circulatory hypoxia”. International Journal of Physiology and Pathophysiology, vol. 9, no 1, pp. 99-108. https://doi.org/10.1615/IntJPhysPathophys.v9.i2.10.
    https://doi.org/10.1615/IntJPhysPathophys.v9.i2.10
28. Yermakova, I.I., Nikolaienko, A.Y., Solopchuk, Y.M., Hrytsaiuk, O.V., Tadeieva, J.P., 2018. “Information Smartphone Technology for Prediction of Human Health State Under Extreme Environmental Conditions”. Kibernetika i vycislitel’naa tehnika, 4, pp. 29-40 (In Russian).
    https://doi.org/10.15407/kvt194.04.029
29. Romaniuk, O., Kozak, L., Kovalenko, O., 2021. “Formation of Interoperable Digital Medicine Information Environment: Personal Medical Data”. Science and Innovation, 17(5), pp. 50-62, https://doi.org/10.15407/scine17.05.050.
    https://doi.org/10.15407/scine17.05.050
30. Surovtsev, I.V., Galimov, S.K., 2016. “Algoritm obrabotki dannykh izmereniya kontsentratsii metodom khronoionometrii”. Upravlausie sistemy i masiny. no 2, pp. 85-91 (In Russian).
    https://doi.org/10.15407/usim.2016.02.085
31. Gritsenko, V.I., 2007. Informatsionno-kommunikatsionnyye tekhnologii v obrazovanii dlya vsekh – v rakurse problem obshchestva znaniy. K.: Akademperíodika, 28 p. (In Russian).
32. Gritsenko, V.I., 2008. Fundamental’nyye problemy E-obucheniya. K.: Akademperíodika, 38 p. (In Russian).
33. Manako, A.F., Sinitsa, E.M., 2012. “Electronic Scientific-Educational Spaces and the Prospects of their Development in the Context of the Support of the Mass Scale and the Continuity”. Upravlausie sistemy i masiny. no 4, pp. 83-92 (In Russian).
34. Komp’yuternaya tekhnologiya obucheniya: Slovar’-spravochnik. Pod red. Gritsenko V.I., Dovgyallo A.M. V 2-kh tomakh. K.: Nauk. dumka, 1992, 784 p. (In Russian).

Received 21.06.2022