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Improvement of multimodal transportation based on logistic principles

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Relevance of the study: As the experience of advanced countries shows, the development of the economy in our country, in particular, in the transportation services market, is associated with the development of interaction between all types of transport. Thus, in modern conditions, for the growth of the role of railway transport, multimodal transportation, which is important for the interaction of Ukraine with the countries of Europe and the East, is becoming important and will also help minimize costs and preserve the environment. Therefore, the issues of evaluating the introduction of multimodal transportation with logistic principles are discussed in the article. It is shown how to determine the marginal substitution rate in the conveyance type while using various modes of transport, based on the utility function and transportation costs. Purpose of the study: The purpose of the article is to develop measures to improve the functioning of parts in multimodal freight delivery routes by minimizing transportation costs, taking into account quality indicators. For this purpose, the following tasks have been set and are being solved: to develop a model for evaluating the efficiency of using different modes of transport with optimal costs; to choose a method for estimating the optimal delivery route and freight volumes; to evaluate the efficiency of transportation technology based on a qualimetric indicator. Approaches: An approach to a comprehensive evaluation of the effect from the activities of transport enterprises in multimodal transportation based on cost optimization, with the qualimetric indicator, and aimed at maximizing the satisfaction of shippers' requirements is offered when determining the route of such transportation parameters as the cost and the quality of freight delivery. Results: The results of the theoretical generalization and analysis of approaches to the formalization of the functioning process in multimodal transportation systems for the delivery of goods by rail and road modes of transport are presented in the article. The significance of the results. The materials in the article are of practical value for employees of transport and logistics companies and enterprises, scientists, and pedagogical workers to improve their professional level.
Czasopismo
Rocznik
Strony
451--469
Opis fizyczny
Bibliogr. 33 poz., rys., wykr.
Twórcy
  • Department of Operation and Repair of Rolling Stock, Ukrainian State University of Railway Transport, Kharkiv, Ukraine
  • Department of Сargo and Сommercial Work Management, Ukrainian State University of Railway Transport, Kharkiv, Ukraine
  • Department of Сargo and Сommercial Work Management, Ukrainian State University of Railway Transport, Kharkiv, Ukraine
  • Department of Railway Stations and Hubs, Ukrainian State University of Railway Transport, Kharkiv, Ukraine
  • Department of Information Systems and Technologies, National Transport University, Kyiv, Ukraine
Bibliografia
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  • 3. Congli, Hao, Yixiang, Yue. (2016) Optimization on Combination of Transport Routes and Modes on Dynamic Programming for a Container Multimodal Transport System. Procedia Engineering, 137, 382–390. https://doi.org/10.1016/j.proeng.2016.01.272
  • 4. Denardo, E.V. (2003). Dynamic Programming: Models and Applications. Mineola, NY: Dover Publications. 228.
  • 5. Fan, Q., Jin, Y., Wang, W., Yan, X. (2019) A performance-driven multi-algorithm selection strategy for energy consumption optimization of sea-rail intermodal transportation. Swarm and Evolutionary Computation, 44, 1-17. https://doi.org/10.1016/j.swevo.2018.11.007
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  • 7. Gremm, С. (2018) The effect of intermodal competition on the pricing behaviour of a railway company: Evidence from the German case. Research in Transportation Economics, 72, 49-64. https://doi.org/10.1016/j.retrec.2018.11.004
  • 8. Hanssen, T.-E. S., Mathisen, T. A., Jorgensen, F. (2012) Generalized Transport Costs in Intermodal Freight Transport. Proceedings of EWGT2012 – 15th Meeting of the EURO Working Group on Transportation, 189-200. https://doi.org/10.1016/j.sbspro.2012.09.738
  • 9. Hao, C., Yue, Y. (2016) Optimization on Combination of Transport Routes and Modes on Dynamic Programming for a Container Multimodal Transport System. Procedia Engineering, 137, 382–390. https://doi.org/10.1016/j.proeng.2016.01.272
  • 10. Islam, D.M.Z. (2014) Barriers to and enablers for European rail freight transport for integrated door-to-door logistics service. Part 2: Enablers for multimodal rail freight transport. Transport Problems, 9(4), 6-13. https://doaj.org/toc/2300-861X
  • 11. Kos, S., Vukić, L., Brčić, D. (2017) Comparison of External Costs in Multimodal Container Transport Chain: PROMET. Traffic&Transportation, 29(2), 243.
  • 12. Krasheninin, O.S., Shapatina, O.O. (2016) The choice of transport support based on the provisions of the fuzzy set theory. Development of management and administration methods of transport. Collection of scientific works, 2(55), 101-113. Original - Крашенінін О. С., Шапатіна О. О. (2016) Вибір виду транспортного забезпечення на основі положень теорії нечітких множин. Розвиток методів управління та господарювання на транспорті. Збірник наукових праць. Вип. 2 (55). С. 101–113.
  • 13. Krasheninin А.S., Shapatina O.O. (2021) Determination of the transportation efficiency using various transport vehicles. Information and control systems in railway transport, 2, 3-8. Original - Крашенінін О., Шапатіна О. (2021) Визначення ефективності перевезень різними транспортними засобами. Інформаційно-керуючі системи на залізничному транспорті. Вип. 2. с. 3-8.
  • 14. Kysly, V. M., Belovodskaya, O. A., Olefirenko, O. M., Solyanik, O. M. (2010) Logistika: Theory and practice. K.: Center of educational literature. 360. Original - Кислий В. М., Біловодська О. А., Олефіренко О. М., Соляник О. М. (2010) Логістика: Теорія та практика: Навч. посіб. К.: Центр учбової літератури. 360 с.
  • 15. Lavrukhin, O., Zapara, V., Zapara, Y., Shapatina, O., Bogomazova, G. (2017) Investigation into the bimodal transportation process by modelling rail module states. Transport Problems, 12(2), 99-112. https://doi.org/10.20858/tp.2017.12.2.10
  • 16. Lin, N. (2019) CO2 emissions mitigation potential of buyer consolidation and rail-based intermodal transport in the China-Europe container supply chains. Journal of Cleaner Production, 240, 118-121. https://doi.org/10.1016/j.jclepro.2019.118121
  • 17. Mindur, L. (2021) Combined/intermodal transport – the global trends. Transport Problems, 16(3), 65-75. https://doaj.org/toc/2300-861X
  • 18. Müller, J.P., Elbert, R.., Emde, S. (2021) Intermodal service network design with stochastic demand and short-term schedule modifications. Computers & Industrial Engineering, 159, 107514. https://doi.org/10.1016/j.cie.2021.107514
  • 19. Oudani, M., El Hilali Alaoui, A., Boukachour, J. (2014). An efficient genetic algorithm to solve the intermodal terminal location problem. International journal of supply and operations management, 1 (3), 279-296.
  • 20. Panchenko, N. Rezunenko, M. (2015) Elements of operations research in the management of transportation processes. Kharkiv: Disa plus. Р. 1, 280. Original - Панченко Н.Г., Резуненко М.Є. (2015) Елементи дослідження операцій в управлінні процесами перевезень: Підручник. Харків: «Діса плюс». Ч. 1. 280 с.
  • 21. Panchenko, N. Rezunenko, M. (2015) Elements of operations research in the management of transportation processes. Kharkiv: Disa plus. Р. 2, 314. Original - Панченко Н.Г., Резуненко М.Є. (2015) Елементи дослідження операцій в управлінні процесами перевезень: Підручник. Харків: «Діса плюс». Ч. 2. 314 с.
  • 22. Panchenko, S., Lavrukhin, O., Shapatina, O. (2017) Сreating a qualimetric criterion for the generalized level of vehicle. Eastern-European journal of enterprise technologies, 1/3(85), 39-45. https://doi.org/10.15587/1729-4061.2017.92203
  • 23. Prymachenko, H. O., Shapatina, O. О., Pestremenko-Skrypka, O. S., Shevchenko, A. V., Halkevych, M. V. (2022) Improving the technology of product supply chain management in the context of the development of multimodal transportation systems in the European union countries. International Journal of Agricultural Extension. Special Issue 01/Issues of Legal Regulation in Agrarian and Tourism Space, 77-89. https://doi.org/10.33687/ijae.010.00.3866
  • 24. Pshinko, O., Charkina, T., Martseniuk, L., Orlovska, O. (2022) Hubs as a key tool for improving the quality of the service and development of multimodal passenger traffic. Transport Problems, 17(1), 201-214. http://dx.doi.org/10.20858/tp.2022.17.1.17
  • 25. Puzankov, A. D., Chetvergov, V. A. (2003) Reliability of locomotives. Moscow: Marshrut. 415. Original - Пузанков А. Д., Четвергов В. А.. (2003) Надежность локомотивов. Учебник для вузов железнодорожного транспорта (под ред. Четвергова В.А.). Москва: Изд-во «Маршрут». 415 с.
  • 26. Rules of grade computations for train service. (1985) Moscow: Transport. 287. Original - Правила тяговых расчетов для поездной работы. (1985) М.: Транспорт. 287 с.
  • 27. Savchenko, A.S., Synelnikov, О.О. (2017) Methods and systems of artificial intelligence. K.: NAU. 190. Original - Савченко А.С., Синельніков О. О. (2017) Методи та системи штучного інтелекту: Навчальний посібник «Комп’ютерні науки». К.: НАУ. 190 с.
  • 28. Shapatina, O. O. (2013) Assessment of the compete`tiveness level of intermodal cargo transportation. Information and control systems on railway transport, 1, 41-46. Original - Шапатіна О. О. (2013) Оцінка рівня конкурентоспроможності інтермодальних перевезень вантажів. Інформаційно-керуючі системи на залізничному транспорті. № 1. с. 41-46.
  • 29. State Statistics Service of Ukraine (2022, July 01). Volume of transported goods by types of transport. Retrieved July 01, 2022 from https://ukrstat.gov.ua/. Original - Державна служба статистики України (2022, липень 01). Обсяг перевезених вантажів за видами транспорту. https://ukrstat.gov.ua/
  • 30. Steadie, S. M., Dellaert, N., Nuijten, W., Woensel, T., Raoufi R. (2014) Multimodal freight transportation planning: a literature review. European Journal of Operational Research, 233(1), 1-15. https://doi.org/10.1016/j.ejor.2013.06.055
  • 31. Transportation of containers on China-Europe rail routes increased by 66% in 2021 (2022, July 01). Retrieved July 01, 2022 from https://ports.ua/perevezennya-kontejneriv-na-zaliznichnih-marshrutah-kitaj-%D1%94vropa-zbilshilosya-na-66-u-2021-roczi/ Original - Перевезення контейнерів на залізничних маршрутах Китай–Європа збільшилося на 66% у 2021 році (2022, липень 01). https://ports.ua/perevezennya-kontejneriv-na-zaliznichnih-marshrutah-kitaj-%D1%94vropa-zbilshilosya-na-66-u-2021-roczi/.
  • 32. Vasilevsky, O. M., Podzharenko, V. O. (2010) Standardization of reliability indicators of technical means. Vinnytsia: VNTU. 129. Original - Васілевський О. М., Поджаренко В. О. Нормування показників надійності технічних засобів. Навчальний посібник. - Вінниця: ВНТУ, 2010. 129 с.
  • 33. Wronka, J. (2017). lntermodal transport development within the New Silk Road. Ekonomiczne Problemy Usług, 128, 107-117. https://doi.org/10.18276/epu.2017.128-08
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e5fd4eb4-3973-48b5-ad80-3358d52fe7e3
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