Development of the Methodological Proposals for the Use of Innovative Risk-Based Mechanism in Transport System


  • Varvara Piterska
  • Anatoliy Shakhov
  • . .





Customs control process, innovation technology project, risk-based mechanism, roadmap of risk management, transport system.


It can be concluded that the system of analysis and risk management is an effective mechanism for accelerating of customs clearance and improving of the quality of customs control in the functioning of the transport system. The proposed risk management mechanism for performing customs and technological procedures within the transport system reflects a sequence of actions that involves selecting one or more monitoring objects for careful analysis and determination of risk indicators, followed by a decision on the use of forms and methods of customs control, taking into account the probability the occurrence of potential or real loss. The use of the proposed methodology will significantly shorten the time of customs procedures, and therefore, reduce the time of transportation of goods across the border, exclude the downtime of transports through the implementation of simplified controls taking into account the requirements of the World Trade Organization, as well as the integrated use of the Kyoto Convention on the basis of assessing of the loss from the risk situation.



[1] Butko, T. V. (2006) Formation of a flexible system of logistic chains of delivery of goods by railways of Ukraine. Eastern European Journal of Advanced Technologies, 6, 21–23.

[2] Vinnikov, V. V. (2005) Transport policy of Ukraine in conditions of implementation of the principles of integrated integration. Bulletin of the Khmelnytsky National University, 3/5, 142–145.

[3] Zaborsky, L. O. (2008) Methodical bases of organization of transport-technological processes in cargo delivery systems. The dissertation for the degree of the candidate of technical sciences on the specialty 05.22.01 transport systems. Odessa, 257.

[4] Lomotko, D. V. (2008) Formation of transport process of railways of Ukraine on the basis of logistic principles. The dissertation for the degree of the doctor of technical sciences on the specialty 05.22.01 transport systems. Kharkiv, 393.

[5] Alyoshinsky, E. S. (2009) Investigation of the problem of optimization of the system of international freight transport in the interaction of different modes of transport. Scientific works of Kharkiv UkrDazt, 94, 197–201.

[6] Shybaev, A. G. (2004) Optimization of delivery of foreign trade goods taking into account the production possibilities of elements of the transport system. Methods and tools for management of the development of transport systems, 7, 177-193.

[7] Bereznyak, V. O. (2005) Strategic task – development of the port. Ports of Ukraine, 3, 12–13.

[8] Kalensky, M. M. (2005) Customs value of imported goods. Kiev, 224.

[9] Mazaraki, A.A. (2006) Management of strategic development of the region using information and analytical systems. Kiev, 248.

[10] Bushuev, S. D., Bushueva, N. S., & Jaroshenko, R. F. (2012). Harmonization models property development programme in turbulence environment. Management of Development of Complex Systems, 10, 9–13. URL:

[11] Bushuyev, S. D., Bushuyev, D. A., Rogozina, V. B., & Mikhieieva O. V. (2015). Convergence of knowledge in project management. Proceedings of the 2015 IEEE 8th International Conference on Intelligent Data Acquisition and Advanced Computing Systems: IDAACS, 496 – 500. DOI:

[12] Rudenko, S., & Andrievska, V. (2016). Concept of project selection and its formalization in the absence of complete information. Eastern-European Journal of Enterprise Technologies, 2/3 (80), 4–10. DOI:

[13] PÑ–terskaya, V. M. (2008) The methodology of risk management in customs and transport activities. Scientific notes of the International Humanitarian University. Odesa, 81-88.

[14] Piterskaya, V. M. (2014) Method of transportation system capacity determination considering cargo flow forecasting. Visnyk ONMU, 1 (40), 176–183.

[15] Piterskaya, V. (2013). Transportation System Development Modeling Subject to Customs Control of Cargo Flows. Universitatii Maritime Constanta. Analele, 14(20), 311.

[16] Gogunskii, V., Piterskaya, V. (2011). Risk management considering of the simulation modeling of the process of cargo transportation flows across the border. Methods and tools for management of the development of transport systems, 17, 52–64.

[17] Fesenko, T., Shakhov, A., Fesenko, G., Bibik, N., & Tupchenko, V. (2018). Modeling of customer oriented construction project management using the gender logic systems. Eastern-European Journal of Enterprise Technologies, 1 (3 (91)), 50–59. DOI: 10.15587/1729-4061.2018.123124

[18] Fesenko, T., Shakhov, A., Fesenko, G. (2017). Modeling of maturity of gender-oriented project management office. Eastern-European Journal of Enterprise Technologies, 5 (3 (89)), 30–38. DOI: 10.15587/1729-4061.2017.110286

[19] Voropaev, V. I. (2005) Systematic approach to the management of projects and programs. PM. Moscow, 3, 20-29.

[20] Donal O’Connell (2011) Harvesting External Innovation. Managing External Relationships and Intellectual Property, 21–26. URL:

[21] Paul B. Brown (2007) Entrepreneurship and Innovation Opportunity, Innovation and Entrepreneurship. Entrepreneurship and Small Business, 55–76. Available at: /book/show/22750123-entrepreneurship-for-the-rest.

[22] Eveleens, C. (2010) Innovation management; a literature review of innovation process models and their implications. Working Paper HAN University of Applied Sciences, 23, 112–121. URL:

[23] Pіterska, V. M. (2016) Zastosuvannya proektno-orіentovanogo pіdhodu v upravlіnnі іnnovacіjnoyu dіyal'nіstyu. Visnyk NTU "KhPI", 1 (1173), 35–42. DOI:

[24] Pіterska, V.M., Kramskiy, S.O. (2017) Methodological basis of innovative project-oriented organizations’ management. Management of the development of complex systems, 30, 11-20. URL:

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How to Cite

Piterska, V., Shakhov, A., & ., . (2018). Development of the Methodological Proposals for the Use of Innovative Risk-Based Mechanism in Transport System. International Journal of Engineering & Technology, 7(4.3), 257–261.
Received 2018-09-23
Accepted 2018-09-23
Published 2018-09-15