TARGET AND SYSTEM ASPECTS OF THE TRANSPORT INFRASTRUCTURE DEVELOPMENT PROGRAM

Keywords: transport infrastructure, sustainable development, logistics system, hypercomplex matrix, system submission, phases of development

Abstract

The subjects of research in the article are programs and projects for the development of transport infrastructure with the allocation of the logistics system. The purpose is to develop a systematic representation of the process of development of a logistic transport system, taking into account the goals of the transport infrastructure development program. The following tasks are solved in the article: systematization of the goals and objectives of the transport infrastructure development program, analysis of the features of the logistic transport system and processes of its development management, development of a generalized formalized presentation of the logistic transport system and the process of its development. To solve these problems, we use methods of system analysis, set theory, hypercomplex matrices. The following results were obtained. The principles of sustainable development of transport infrastructure are analyzed.  The article presents the systematization of the goals and objectives of the transport infrastructure development program and outlines the basic principles of its sustainable development. The tasks of development of the logistic system in the transport infrastructure of the country are considered. A logistic transport system is presented in the form of a graph, where vertices are its elements and connections are information and material flows. When determining the acceptable level of the parameter of development of the logistics transport system, such types of coordination problems arise when making management decisions, such as integral, deterministic and range. In a formalized form, the logistic transport system is presented as a set of system invariants that determine its properties: complexity, dynamism and structural. There are three phases of uncertainty change taking into account the development of the system. The hypercomplex matrix of the system allows you to define its elements and their connections. Conclusions: The analysis of the research subject revealed that the issues related to the choice of system concept and methodological tools for the formation of distributed logistics infrastructure remain unsettled, and the problems of transport infrastructure of Ukraine are highlighted. Based on the proposed graph analytic representation of the logistic transport system, it is possible to analyze its structure.

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Author Biographies

Alina Yelizyeva, National Aerospace University "Kharkiv Aviation Institute"
PhD (Engineering Sciences), Associate Professor of the Department of Computer Sciences and Information Technologies
Roman Artiukh, State Enterprise "National Design & Research Institute of Aerospace Industries"
PhD (Engineering Sciences), Director
Elena Persiyanova, State Enterprise "Southern National Design & Research Institute of Aerospace Industries"
Research Engineer

References

Porter, Michael. E. (2001), Competition / trans. from English: pos. Moscow, 495 p.

Mintsberg, G., Quinn, J. B. (2001), Goshal S. Strategic process. Concept. Problems, St. Petersburg, 688 p.

Drucker, P. F. (2004), Encyclopedia of Management / trans. from English, 432 p.

Gritsenko, S. I. (2009), Transport and logistics clusters in Ukraine: ways of formation and development : monograph, St. Petersburg, 218 p.

Kosenko, V., Gopejenko, V. і Persiyanova, E. (2019), "Models and applied information technology for supply logistics in the context of demand swings", Innovative Technologies and Scientific Solutions for Industries, No. 1 (7), P. 59–68. DOI: https://doi.org/10.30837/2522-9818.2019.7.059

Bludova, T. V. (2006), Transit potential of Ukraine: formation and development, Kyiv, 274 p.

Lytvynenko, D., Dorokhina, A. and Artiukh, R. (2019), "Analyzing the interests and interaction of the participants of a transport system development project", Innovative Technologies and Scientific Solutions for Industries, No. 1 (7), P. 69-74. DOI: https://doi.org/10.30837/2522-9818.2019.7.069

Bushuyev, S., Bushuiev, D. and Kozyr, B. (2019), "Development project management capability of the infrastructure program. Chernobyl case", Innovative Technologies and Scientific Solutions for Industries, No. 2(8), P. 15–24. DOI: https://doi.org/10.30837/2522-9818.2019.8.015

Shevchuk, Ya. V. (2011), Motor transport infrastructure: theory and methods of modern regional research: monograph. Uzhgorod, 376 p.

Nagurney, A., Smith, John F. (2006), Supply Chain Network Economics: Dynamics of Prices, Flows and Profits, Edward Elgar Publishing, Cheltenham, England, 448 р.

Taylor, M. A. and D’este, G. M. (2004), "Critical Infrastructure and Transport Network Vulnerability: Developing a Method for Diagnosis and Assessment", Proceedings of the Second International Symposium on Transportation Network Reliability (INSTR), A. Nicholson and A. Dantas, editors, Christchurch, New Zealand, P. 96–102.

Fan, Y, Khattak, A J, Shay, E. (2007), "Intelligent Transportation Systems: What Do Publications and Patents Tell Us?", Journal of Intelligent Transportation Systems, No. 11:2, P. 91–103.

Bereznyak, N. V, Kvasha, T. K. (2012), Novitskaya GVProcesses of integration of information infrastructure of innovation activity: analytical review, Kyiv, 93 p.

Gaykov, A. R., Baranov, O. V., Baranov, V. Yu. (2014), "Intelligent transport systems in Ukraine", Bulletin of NTU "KPI", No. 9 (1052), P. 106–112.

Prokofiev, D. V. (2010), "Principles and methodology of building an integrated information system for managing the functioning of logistics centers", Logistics and supply chain management, No. 6 (41), P. 11–23.

Yarkina, N. M. (2014), "Enterprise management as an economic category (theoretical aspects)", Countries and Regions Ser. : Economics and Entrepreneurship, No. 1 (76), P. 130–136.

Filatova, T. V. (2013), "Management decision making as a factor in improving the efficiency of railway transport", Bulletin of Economics of Transport and Industry, No. 42, P. 182–186.

Danchenko, O. B., Lepsky, V. V. (2017), "Modern models and methods of project management, project portfolios and programs", Management of complex systems development, No. 29, P. 46–54.

The standard for Program Management. Global standard. PMI. URL: http://www.pmi.org (last accessed 27.07.2019).

A Guidebook of Project & Program Management for Enterprise Innovation. Volume I. Translation. URL: http://www.pmaj.or.jp (last accessed 27.07.2019).

Stadnik, V. V., Yokhna, M. A. (2011), Strategic management of enterprise innovation development, Khmelnytsky, 332 p.

On approval of the Transport Strategy of Ukraine for the period up to 2020, URL: http://climategroup.org.ua/wp-content/uploads/2010/07/Order_KMU_Transport_strategy_UA-2020.pdf (last accessed 15.06.19).

Dimarchuk, S. M. (2002), "Formation of regional transport and logistics systems. Problems of rational use of socio-economic and natural-resource potential of the region", Employment, Labor and Social Infrastructure series, No. 3, P. 163–170.

Pashchenko, Yu. E., Nikiforuk, O. I. (2008), Ukraine's transport and road complex in the processes of international integration: monograph, Nizhyn : Aspect-Polygraph, 192 p.

Preiger D., Sobkevich O., Emelyanova O. Prospective ways and mechanisms of integration of the market of transport services of Ukraine to EU countries. Analytical note. URL: http://www.niss.gov.ua/articles/475/ (last accessed 29.05.19).

Strategy for the development of railway transport for the period up to 2020. Approved by the Resolution of the Cabinet of Ministers of Ukraine dated 16.12.2009 № 1555-р, URL: www.ugmk.info/download/1261743310 (last accessed 03.06.19).

Ukraine's transport strategy for the period up to 2020, URL: http://www.mtu.gov.ua (last accessed 03.06.19).

Kosenko, V. (2018), "Decision support system in planning investment projects", Innovative Technologies and Scientific Solutions for Industries, No. 4 (6), P. 113–119. DOI: https://doi.org/10.30837/2522-9818.2018.6.113

Dashchenko, N. M. Development of logistics centers at the present stage, URL: http://www.nbuv.gov.ua/portal/natural/Upsal/2009_6/09dnmcps.pdf (last accessed 30.06.19)

The main activities for the implementation of the enterprise development strategy for the medium and long term, URL: http://www.kbptula.ru/ru/about/o-predpriyatii/strategiya-razvitiya (last accessed 3.06.2019).

Busheyev, S. D., Kozyr, B. Yu. (2011), "Innovative mechanisms for managing programs of development of maritime transport clusters", Management of complex systems development, No. 7, P. 5–7.

Danko, M. (2007), "Reorganization of enterprises in the context of formation of corporate structures", Ukraine economy, No. 1, P. 64–70.

Daft, R. (2008), Management / trans. from English 6th ed. SPb. : Peter, 864 p.

Indicators of Sustainable Development: Guidelines and Methodologies, United Nations, New York, 94 р.

Malyuta, A. N. (1990), Patterns of system development, Kyiv, 136 p.

Bir, S. T. (2006), Cybernetics and Management / Per. from English V. Ya. Altayev; under the editorship of A. B. Chelyustkin, 2nd ed., Moscow, 280 p.

Fleishman, B. S. (1982), Fundamentals of systemology, Moscow, 368 p.


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Published
2019-09-23
How to Cite
Yelizyeva, A., Artiukh, R. and Persiyanova, E. (2019) “TARGET AND SYSTEM ASPECTS OF THE TRANSPORT INFRASTRUCTURE DEVELOPMENT PROGRAM”, INNOVATIVE TECHNOLOGIES AND SCIENTIFIC SOLUTIONS FOR INDUSTRIES, (3 (9), pp. 81-90. doi: 10.30837/2522-9818.2019.9.081.

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