INTELLECTUAL DEVELOPMENT OF HIGH-TECH PRODUCTION ON THE BASIS OF THE FORMATION OF ITS ORGANIZATIONAL AND TECHNOLOGICAL SYSTEM IN A RISKOGENIC INNOVATION ECONOMY

##plugins.themes.bootstrap3.article.main##

##plugins.themes.bootstrap3.article.sidebar##

  Vitaliy Zakharchenko

  Svitlana Yermak

  Svitlana Oneshko

Abstract

The aim of the article is an attempt to form the basic methodological provisions for the smart development of organizational and technological systems in high-tech production in a risky innovation economy. Methodology. Methodological support for research on justification of the structure of the future system requires a methodology that is adequate to the content of the process of creating organizational and technological system in high-tech production, as well as data on the volume, specificity and dynamics of the representations of this type of system. When constructing such a methodology, it is necessary to proceed from the general principles of building systems. Results. An approach to the formation of a unified methodological basis for the creation of organizational and technological systems in the domestic high-tech production is given. The goal and objectives, composition and structure, main characteristics and parameters, the order of functioning of such a system are defined. Consistently a team of specialists is formed, the concept of creating the system itself is developed, the goals and objectives, the required efficiency, the description of possible conditions of use, as well as the prediction of constraints are determined. The general principles of creating an organizational and technological system are formulated: integrity, hierarchy, situationality, change of basis, analogy of structures. The most important aspects of its creation and synthesis are defined: functional, structural, technological. Value/originality. The main method of smart development of OTS in HT is the method of hierarchical decomposition by aspects, levels and stages of construction of the system, which allows not only to unbundle the task based on the ratio "whole – part", but also to implement the "right of intervention" and "dependence of levels".

How to Cite

Zakharchenko, V., Yermak, S., & Oneshko, S. (2022). INTELLECTUAL DEVELOPMENT OF HIGH-TECH PRODUCTION ON THE BASIS OF THE FORMATION OF ITS ORGANIZATIONAL AND TECHNOLOGICAL SYSTEM IN A RISKOGENIC INNOVATION ECONOMY. Economics & Education, 7(1), 6-13. https://doi.org/10.30525/2500-946X/2022-1-1
Article views: 51 | PDF Downloads: 34

##plugins.themes.bootstrap3.article.details##

Keywords

smart development, high-tech production, organization, technology, system, model, risk, innovative economy

References

Borodakiyi, Y. V., Kravchuk, P. V. & Batkovsky, M. A. (2014). Modeling of innovative development of a high-tech enterprise. Statistics and Economics, 2: 32–36. (in Russian)

Budkin, V., Petrenko, Z., Nguyen, Thi Han (2005). High technology zones: world experience and realities of Ukraine. Ekonomika Ukrainyi, 10: 68–75. (in Russian)

Datta, A., Mukherjee, D., & Jessup, L. (2015). Understanding commercialization of technological innovation: Taking stock and moving forward. R and D Management, 45(3), 215–249. DOI: https://doi.org/10.1111/radm.12068

Fedulova, L. (2008). Prospects for innovation and technological development of Ukrainian industry. Ekonomika Ukrainyi, 7: 24–36. (in Russian)

Heets, V. M., Seminozhenko, V. P. (2006). Innovative perspectives of Ukraine: monograph. Kharkiv: Konstanta, 272. (in Ukrainian)

Gusev, E. V., Mukhametzyanov, Z. R. & Razyapov R. V. (2017). Technique for Determination of Rational Boundaries in Combining Construction and Installation Processes Based on Quantitative Estimation of Technological Connections. IOP Conference Series: Materials Science and Engineering (MSE). Vol. 262. DOI: https://doi.org/10.1088/1757–899X/262/1/012140

Khubka, V. (1987). Theory of technical systems, Moscow, Mir, 208 p. (in Russian)

Mistrov, L. E. (2004). The main provisions of the methodology of synthesis of organizational and technical systems. Mashinostroitel, 4: 28–37. (in Russian)

Models of project management in an unstable economic environment: a monograph. Ed. Yu. G. Lysenko. (2009). Donetsk: Yugo-Vostok, 354. (in Russian)

National economic strategy for the period up to 2030. Government courier. (2021), 45: 8–36. (in Russian)

Obolenskyi, V. (2003). Technological rivalry in the world market. World Economy and International Relations, 7: 3–12. (in Russian)

Poloskov S., Zheltenkov A., Braga I. & Kuznetsova I. (2020). Adaptation of high-tech knowledge-intensive enterprises to the challenges of industry 4.0. E3S Web of Conferences 210, 13026 (ITSE-2020). DOI: https://doi.org/10.1051/e3sconf/202021013026

Rossokha, V. V., Sokolov, D. O. (2013). Ways to ensure innovation and technological development. Ahroinkom, 7-9: 48–56. (in Ukrainian)

Salikhova, O. B. (2008). High technologies: definition and evaluation. Kyiv: State Enterprise "Information and Analytical Agency", 289. (in Ukrainian)

Salikhova, O. B. (2011). Targeted state support as a factor stimulating the development of high-tech industries in Ukraine. Economics and forecasting, 2: 9–23. (in Ukrainian)

Strategy for the development of innovation in the period up to 2030 (2019). Rozporiadzhennia K.M. Ukrainy vid 10.07.2019 r. №526-r. Uriadovyi kurier, 9–10. (in Ukrainian)

Systems theory and systems analysis in the management of organizations: a handbook. Ed. V. N. Volkova and A. A. Yemelyanova. Moscow, Finance and Statistics, 354. (in Russian)

Udovenko, V. (2017). Economic and mathematical model of enterprise management based on the Monte Carlo method. Ekonomika Ukrainyi, 5: 86–89. (in Russian)

Usov, A. V., Oborskyi, H. A. Weissman, V. A., Dmitrishin, D. V. (1995). Mathematical modeling of technical systems, Kiev, Tehnika, 328. (in Russian)

Vasiliev, O. (2011). Problems of development of high-tech industries of Ukraine in conditions of global competition. Doslidzhennia mizhnarodnoi ekonomiky: zbirnyk naukovykh prats, 1 (66): 209–227. (in Ukrainian)

Vitlinskyi, V., Matviychuk, A. (2007). Paradigm shift in the modern theory of economic and mathematical modeling. Ekonomika Ukrainyi, 11: 35–43. (in Russian)

Yakubovskyi, N. (2009). Scientific and innovative support for the modernization of Ukrainian industry. Ekonomika Ukrainyi, 10: 4–14. (in Russian)

Yehorov, I. Yu. (2015). "Innovative Ukraine – 2020": the main provisions of the national report. Ekonomika Ukrainyi, 9: 4–18. (in Ukrainian)