ESC
Web of Science
Entrepreneurship and Sustainability Issues Open Access Q1
Scopus - coverage starting with 2017 material
Received: 2019-01-25  |  Accepted: 2019-04-10  |  Published: 2019-06-30

Title

Sustainable development of Industry 4.0: the case of high-tech products system design


Abstract

Modern production of high-tech products is characterized by the transition from the traditional design paradigm to the new paradigm of designing a holistic unified set of products. In this regard, the process of designing high-tech products needed to be allocated into a separate type – the system design. Its main methodological provisions are presented in the study. The result of the generalization was the developed system design model, which included the engineering design and process design stages, a method for evaluating the unification effectiveness, suitable for use at both intraspecific and trans-species levels, and an algorithm for the practical use of an integrated model and proposals for its use at the stages of creation of high-tech products. The use of the methodological toolkit for system design of high-tech products allows reducing the cost of their creation, production and operation significantly, as well as obtaining the structure of production with balanced efficiency and cost. The practical implementation of the proposed tools is possible at the stage of selecting design organizations. The developed toolkit is universal and can be used in all sectors of the economy.


Keywords

system design, Industry 4.0, high-tech products, production structure, sustainability, production model optimization.


JEL classifications

O32 , O33 , C51


URI

http://jssidoi.org/jesi/article/323


DOI


Pages

1823-1838


Funding

The study was carried out with the financial support of the Russian Foundation for Basic Research in the framework of the research project No. 18-00-00012 (18-00-0008) COMFI

This is an open access issue and all published articles are licensed under a
Creative Commons Attribution 4.0 International License

Authors

Batkovskiy, Aleksandr M.
JSC "Central Research Institute of Economy Management and Information Systems "Electronics", Moscow, Russian Federation http://instel.ru
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Leonov, Aleksandr V.
Moscow Aviation Institute, Moscow, Russian Federation https://mai.ru
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Pronin, Aleksey Yu.
Russian Technological University (MIREA), Moscow, Russian Federation https://www.mirea.ru
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Semenova, Elena G.
Saint Petersburg State University of Aerospace Instrumentation, Saint Petersburg, Russian Federation http://new.guap.ru
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Fomina, Alena V.
JSC "Central Research Institute of Economy Management and Information Systems "Electronics", Moscow, Russian Federation http://instel.ru
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Balashov, Viktor M.
Scientific and Production Enterprise "Radar MMS", Saint Petersburg, Russian Federation http://www.radar-mms.com
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Journal title

Entrepreneurship and Sustainability Issues

Volume

6


Number

4


Issue date

June 2019


Issue DOI


ISSN

ISSN 2345-0282 (online)


Publisher

VšĮ Entrepreneurship and Sustainability Center, Vilnius, Lithuania

Cited

Google Scholar

Article views & downloads

HTML views: 693  |  PDF downloads: 364

References


Alieva, E.V. (2017). Cals-Technologies, Implementation of Case-Technologies in Production. NovaInfo, 58(5), 61-68. Retrieved March 19, 2019 from https://novainfo.ru/article/10822

Search via ReFindit


Allen, M., Carpenter, C., Hutchins, M., & Jones, G. (2015). Impact of Risk Management on Project Cost: An Industry Comparison. Journal of Information Technology & Economic Development, 6(2), 1-19.

Search via ReFindit


Astakhov, S.A., Shiryaev, A.N., & Vorobev, A.A. (2015). Organization of Process Management of the Life Cycle of Products of Highly Specialized Enterprises. Trends and Management, 4, 423-432. https://doi.org/10.7256/2307-9118.2015.4.16086

Search via ReFindit


Baikin, V.A., & Stetsyuk, A.N. (2015). Formalization of Technological Procedures for Monitoring the Life Cycle of a Complex Engineering System. Software Systems and Computational Methods, 1, 52-58. https://doi.org/10.7256/2305-6061.2015.1.14407

Search via ReFindit


Batkovskiy, A.M., Konovalova, A.V., Semenova, E.G., Trofimets, V.Ya., & Fomina, A.V. (2015). Risks of Development and Implementation of Innovative Projects. Mediterranean Journal of Social Sciences, 6(4), S4, 243-253. https://doi.org/10.5901/mjss.2015.v6n4s4p243

Search via ReFindit


Batkovskiy, A.M., Semenova, E.G., Fomina, A.V., Khrustalev, E.Iu., & Khrustalev, O.E. (2016). The Methodology and Mathematical Tools to Assess and Mitigate the Risk of Creating High-Tech Products. Indian Journal of Science and Technology, 9(27), 242-252. https://doi.org/10.17485/ijst/2016/v9i28/97659

Search via ReFindit


Bertoni, F., Croce, A., & Guerini, M. (2015). Venture Capital and the Investment Curve of Young High-Tech Companies. Journal of Corporate Finance, 35, 159-176. https://doi.org/10.1016/j.jcorpfin.2015.08.012

Search via ReFindit


Bessant, J., Trifilova, A., & Rush, H. (2015). Crisis-Driven Innovation: The Case of Humanitarian Innovation. International Journal of Innovation Management, 19(06). https://doi.org/10.1142/S1363919615400149

Search via ReFindit


Borisov, V.M., & Borisov, S.V. (2016). Assessment of the Level of Standardization and Unification of Engineering Products. Bulletin of Technological University, 19(3), 93-94.

Search via ReFindit


Calderon, M., Salvatierra, O.A., & Roording, R. (2015). The New Technology Cost-Effectiveness Checklist: Introducing A Practical Guideline for the Selection of Health Technologies. Value in Health, 18(7), A569. DOI: https://doi.org/10.1016/j.jval.2015.09.1871

Search via ReFindit


Christensen, A., & Clayton, M. (2016). The Innovator's Dilemma (1st ed.). Boston, Mass.: Harvard Business Review Press. (p. 239).

Search via ReFindit


Demchenko, A.I. (2014). Process-Oriented Approaches to the Design and Modeling of Logistics Chains. Bulletin of the South Ural State University. Series: Economics and Management, 8(4), 169-178. Retrieved March 19, 2019 from https://vestnik.susu.ru/em/article/view/2890/273

Search via ReFindit


Dubrovsky, V.Zh., Dulova, I.N., & Kuzmin, E.A. (2011). Financial Risk Assessment in Cash Flow Forecasts for a Multi-Product Enterprise. Chelyabinsk State University Bulletin, 6(221), Economy, Issue 31, 100-107.

Search via ReFindit


Ely, A., Van Zwanenberg, P., & Stirling, A. (2014). Broadening out and Opening up Technology Assessment: Approaches to Enhance International Development, Co-Ordination and Democratisation. Research Policy, 43(3), 505-518. https://doi.org/10.1016/j.respol.2013.09.004

Search via ReFindit


Esev, A.A., Merezhko, A.N., & Tkachuk, A.V. (2014). Technology Qualimetry Technical Level of Complex Systems. Bulletin of Computer and Information Technology, 7(121), 28-34. https://doi.org/10.14489/vkit.2014.07.pp.028-034

Search via ReFindit


Garina, E.P., Kuznetsov, V.P., Romanovskaya, E.V., Lapaev, D.N., & Yashin, S.N. (2017). Formation of the Production System Elements and R&D Product Development Processes in the Early Stages of the Project. Journal of Applied Economic Sciences, 12(2(48), 538-542.

Search via ReFindit


Golosovskii, M.S. (2014). The Model of the Life Cycle of Software Development in the Framework of Research. Automation. Modern Technologies, 1, 43-46.

Search via ReFindit


Goraeva, T. (2015). Methods of Forming a Strategy for Promoting High-Tech Products. Science and Innovation. The National Academy of Sciences of the Republic of Belarus, 12(154), 52-56.

Search via ReFindit


Harris, D., Villadsen, B., & Koble, L. (2017). Risk and Return for Regulated Industries (1st ed.). Elsevier Academic Press. (p. 354).

Search via ReFindit


Hilkevics, S., Semakina, V. (2019). The classification and comparison of business ratios analysis methods. Insights into Regional Development, 1(1): 48-57. https://doi.org/10.9770/ird.2019.1.1(4)

Search via ReFindit


Kaluzhskii, M.L. (2014). Economic Dynamics: Institutions, Systems and Self-Organization. Economic Analysis: Theory and Practice, 5(356), 27-38.

Search via ReFindit


Kamae, I., Sugimoto, T., & Yamabe, K. (2015). Value-Based Pricing Scheme for New Technology in Consideration of Cost-Effectiveness Dominance to the Control. Value in Health, 18(7), A732. https://doi.org/10.1016/j.jval.2015.09.2796

Search via ReFindit


Kazakova, N.V., & Saveleva, I.V. (2014). Enterprise Planning Based on a Synergistic Approach. Economy and Entrepreneurship, 1-2(42), 581-584.

Search via ReFindit


Kazanskaya, G.N., & Palenova, T.V. (2015). Standardization – the Basis of Product Quality. Economy and Entrepreneurship, 5-1(58), 846-849.

Search via ReFindit


Langdon, M., Ma, M., & Wu, P.C. (2014). Agile Innovation: The Revolutionary Approach to Accelerate Success, Inspire Engagement, and Ignite Creativity. John Wiley & Sons. (p. 400).

Search via ReFindit


Panov, A.Yu., & Trofimova, M.S. (2017). Dynamic Model of Quality Management for Designing Machine Tools. Bulletin of the Perm National Research Polytechnic University. Electrical Engineering, Information Technology, Control Systems, 24, 91-104.

Search via ReFindit


Romanova, O.A., Korovin, G.B., & Kuzmin, E.A. (2017). Analysis of the Development Prospects for the High-Tech Sector of the Economy in the Context of New Industrialization. Revista Espacios, 38(59), 25.

Search via ReFindit


Shilova, A.A. (2014). Economic Dynamics: Research Methodology. NAUKA-RASTUDENT.RU: Electronic Scientific Journal, 3(03), 7-12. Retrieved March 19, 2019 from , https://doi.org/10.1016/j.jedc.2019.03.001 http://nauka-rastudent.ru/3/1244

Search via ReFindit


Skhirtladze, A.G., Skryabin, V.A., & Zotov, E.V. (2015). Unification in the Design and Testing of Products of Engineering Production. Repairs. Recovery. Modernization, 1, 44-48.

Search via ReFindit


Sobolev, A.A., & Solovev, V.I. (2017). Life Cycle Management of Complex Systems in the Context of System Engineering. Innovations to Life, 2(21), 137-174.

Search via ReFindit


Tikhonov, A.I., & Sazonov, A.A. (2018). Prospects for Using the Methods of Mathematical Modeling and Digital Design in Ensuring Product Life Cycle Management. Management and Business Administration, 3, 118-128.

Search via ReFindit


Tretyakov, V.M. (2014). Evaluation of the Diversity of Components of Manufactured Products. Standards and Quality, 12, 34-36.

Search via ReFindit


Vilenskiy, P.L., Livshits, V.N., & Smolyak, S.A. (2015). Assessment of Investment Projects Efficiency. Theory and Practice. Moscow: Poli Print Service. (p. 1300).

Search via ReFindit


Vlasov, A.I., & Demin, A.A. (2017). Visual Methods of Formalization of Knowledge in the Conditions of the Synchronous Technologies of System Engineering. In ACM International Conference Proceeding Series. http://doi.org/10.1145/3166094.3166098

Search via ReFindit


Vlasov, A.I., Echeistov, V.V, Krivoshein, A.I., Shakhnov, V.A., Filin, S.S., & Migalin, V.S. (2018). An Information System of Predictive Maintenance Analytical Support of Industrial Equipment. Journal of Applied Engineering Science, 16(4), 515-522. http://doi.org/10.5937/jaes16-18405

Search via ReFindit