AN APPROACH TO DETERMINE THE RATIONAL SCHEME OF DELIVERY FOR THE INTERNATIONAL CONSOLIDATED SHIPMENTS

Keywords: rational scheme, delivery, consolidated shipments, cost, international transport

Abstract

The article deals with an approach for determining a rational scheme for the delivery of the international consolidated shipments taking into account possible alternatives involving the transport companies and terminal systems. The cost to consider the impact parameters have been proposed as a criterion for finding a rational scheme for the delivery of consolidated shipments.

Author Biographies

O. Pavlenko, Kharkiv National Automobile and Highway University

Кандидат технічних наук, доцент

D. Kopytkov, Kharkiv National Automobile and Highway University

Assoc. Prof., Ph. D., Department of Transport Technologies

References

Nayden, O., Pavlenko, O., Kalinichenko, O. (2011) Selection of the rational transport and technological scheme to deliver the interregional small-lot cargoes. Eastern-European Journal of Enterprise Technologies, 6 (54), 55-57

Falovich, V. (2015) The features to form the consolidated shipments in supply chains. Technological audit and produc-tion reserves, 1/5 (21), 78-84

The Cabinet of Ministers of Ukraine's Order on the 2030 Transport Strategy. Retrieved from: https://www.kmu.gov.ua

Naumov, V., Viter, N. (2011) The technique to create the alternative transport and technological systems for cargo deliv-ery. Eastern-European Journal of Enterprise Technologies, 5/4 (53), 16-19

FM Logistic entered the container shipping market of Ukraine. Retrieved from: http://cfts.org.ua/news/fm_logistic_vyshla_na_rynok_morskikh_konteynernykh_perevozok_ukrainy_24232

Mirotin, L., Bulba, A., Demin, V. (2009) Logistics, technol-ogy, design of warehouses, transportation hubs and terminals. Rostov-on-Don: Phoenix, 408

Velykodnyi, D., Pavlenko, O. (2017) The choice of rational technology of delivery of grain cargoes in the containers in the international traffic. International journal for traffic and transport engineering , 7(2), 164-175

Nagorny, E., Lomotko, D., Shramenko, N., Naumov, V., Pavlenko, A. (2013) Forwarding activities. Kharkiv: KhNADU, 352

Prokudin, S. (2009) Models and methods for optimizing freight transport in transport systems. Candidate’s thesis. Kyiv.

Lesov, Yu., Itkind, I. (1977) Transportation of consumer goods by road transport (reference book). Moscow: Transport, 144.

Zvyagin, O. (2009) Improving the efficiency of the small-batch goods transportation. Candidate’s thesis. Kyiv.

Yareschenko, N. (2011) The current state of small-batch traffic. Problems of improvement. Eastern-European Journal of Enterprise Technologies, 5/4 (47), 11-14

Rosanoa, M. , C. Giovanni Demartinia, C., F. Lambertia, F., Perboliab, G. (2018) A mobile platform for collaborative urban freight transportation. Transportation Research Procedia, 30, 14-22

Vojtov, V.A., Muzylyov, D.A., Berezchnaja, N.G. (2018) Integrated approach in calculation of the economic effect of the functioning of the transport and logistic complex with the ac-count of the risk factor. Web of Scholar, 1(3), 12-18

Kunyts'ka, O. (2006) Improving the efficiency of the cus-toms terminal in the international cargo road transportation. Candidate’s thesis. Kyiv.

Samoylenko, A. (2009) Improving the technology of accel-erated small-lot cargo processing at the terminals under the conditions of the transport service market Candidate’s thesis. Kharkiv.

Roşca, E., Raicu, Ş., Augustin Roşca, M., Burciu, Ş. (2014) Transshipment Modeling and Simulation of Container Port Terminals. Advanced Materials Research, 837, 786-791

Bian, G.R., Li, H.S., Dai, G.L. (2012) Research on the Optimization of Transportation Routing Problem of Warehouse Material Based on Self-Adaptive Ant Colony Algorithm. Ap-plied Mechanics and Materials, 236-237, 1122-1127

Zhao, Y.P. (2011) Multi-Node Distribution Center Location Model under Manufacturing and Remanufacturing System. Applied Mechanics and Materials, 39, 140-145

Rossolov, A., Popova, N., Kopytkov, D., Rossolova, H., Zaporozhtseva, H. (2018) Assessing the impact of parameters for the last mile logistics system on creation of the added value of goods. Eastern-European Journal of Enterprise Technolo-gies, 5/3 (95), 70-79

Chen, H. (2013) Study the on Time Delivery Based on Product Lifecycle Management in Supply Chain. Applied Me-chanics and Materials, 397-400, 2581-2588

Wang, Y.L. (2012) Design and Operating for the Logistics Systems. Advanced Materials Research, 433-440, 3101-3105

Xiao, M., Zhang, Z.R., Zhang, Z.H.Ge. (2014) A Review of Optimization Scheduling and New Research Focuses of Logistics. Advanced Materials Research, 869-870, 272-275

Hrysyuk, Yu. (2006) Logistic methods to simulate the goods transportation process. Pereviznyk, 9, 31-36

Nagorny, Ye., Shramenko, N. (2010) Road transport com-mercial activity. Kharkiv: KhNADU, 324.

Published
2019-01-25
How to Cite
PavlenkoO., & KopytkovD. (2019). AN APPROACH TO DETERMINE THE RATIONAL SCHEME OF DELIVERY FOR THE INTERNATIONAL CONSOLIDATED SHIPMENTS. Municipal Economy of Cities, 1(147), 35-41. Retrieved from https://khg.kname.edu.ua/index.php/khg/article/view/5349