Software for designing a port railway station

The subject of the research is programming the problem of designing a port station and calculating its key parameters. The relevance of the research topic is related to the need to automate a complex of complex calculations that can be performed more quickly and accurately using a software product.
Methods dynamic and linear programming, syntax and tools of the Visual Basic 6.0 programming language, analytical, marketing, and project methods, materials of general access and official sites, own research used.
The software product for automating the calculation of technical and operational parameters of the port station is described.
The results of the calculation can be applied when constructing a continuous schedule for the operation of a transport hub, a diagram of daily wagon flows in the station. Using the program, you can determine the number and length of tracks for receiving, sending and sorting trains by station.
The software product can be useful both in the educational process of secondary and higher education, and in practical business when making business decisions on the organization of the work of both the port station and the transport hub as a whole.

1. Malikov O.B. Freight terminals in the system of organizing train flows. Railway Transport. 2011; 9:74-77. (In Russian).

2. Malikov O.B. Business logistics. Saint Petersburg, Polytechnic, 2003; 223. (In Russian).

3. Malikov O.B. Container terminals: device, equipment, design, research. Saarbrücken, Germany, LAP LAMBERT Academic Publishing, 2014; 257. (In Russian).

4. Malikov O.B. Determination of the route of the transport corridor in the network. Actual problems of management of the transportation process, collection of scientific papers. 2013; 97-105. (In Russian).

5. Malikov O.B. Theory of warehouse systems. Integrated Logistics. 2012; 6:36-39. (In Russian).

6. Ermolaev K.N. et al. Economy of Russia: past, present, future: collective monograph / ed. by N.А. Adamova. Moscow, Institute for Research on Goods Movement and Wholesale Market Conditions, 2014; 286. (In Russian).

7. Pokrovskaya O.D. Evolutionary-functional approach to the development of transport hubs. Political transport systems: materials of the IX International Scientific and Technical Conference. 2017; 233-238. (In Russian).

8. Malykov O.B., Pokrovskaya O.D. Rate-setting system analysis of railroad transport from a position of logistics and customer-oriented approach. Proceedings of Petersburg Transport University. 2017; 14(2):187-199. (In Russian).

9. Pokrovskaya O.D. Comprehensive assessment of transport and storage systems of railway transport: diss. ... doct. tech. sciences. St. Petersburg, 2018; 32. (In Russian).

10. Pokrovskaya O.D., Titova T.S. Research vocabulary of terminalistics. Bulletin of Scientific Research Result. 2018; 2:29-43. (In Russian).

11. Pokrovskaya O.D., Malikov O.B. Concerning the logistics hierarchy of railway facilities. Proceedings of Petersburg Transport University. 2016; 13(4):(49):521-531. (In Russian).

12. Pokrovskaya O.D., Malykov O.B. Evolutionary functional approach to transport nodes classification. Proceedings of Petersburg Transport University. 2017; 14(3):406-419. (In Russian).

13. Samyilov V.M., Pokrovskaya O.D., Qiao Cong. Concept «New silk road» (China, Russia, Germany). Innotrans. 2017; 4(26):26-28. DOI: 10.20291/2311-164X-2017-4-26-28 (In Russian).

14. Pokrovskaya O., Fedorenko R. Evolutionary-functional approach to transport hubs classification. Advances in Intelligent Systems and Computing. 2020; 356-365. DOI: 10.1007/978-3-030-19756-8_33

15. Pokrovskaya O. Terminalistics as the methodology of integrated assessment of transportation and warehousing systems. MATEC Web of Conferences. 2018; 02014. DOI: 10.1051/matecconf/201821602014

16. Pokrovskaya O., Fedorenko R. Assessment of Transport and Storage Systems. VIII International Scientific Siberian Transport Forum. 2020; 570-577. DOI: 10.1007/978-3-030-37916-2_55

17. Pokrovskaya O., Fedorenko R. Methods of rating assessment for terminal and logistics complexes. IOP Conference Series: Earth and Environmental Science. 2019; 403:012199. DOI: 10.1088/1755-1315/403/1/012199

18. Titova T.S., Pokrovskaya O.D. Interdisciplinary proposition of the theory of terminalistics. Proceedings of Petersburg Transport University. 2018; 15(2):248-260. (In Russian).

19. Pokrovskaya O.D., Korovyakovskij E.K. Terminalistics: organization and management in transport hubs. Proceedings of Petersburg Transport University. 2016; 13(4):(49):509-520. (In Russian).

20. Pokrovskaya O.D. The state of transport and logistics infrastructure in Russian coal transportation industry. Innotrans. 2015; 1(15):13-23. (In Russian).

21. Pokrovskaya O.D., Samuylov V.M. International logistics of trans-Siberian railway: the use of transit potential of Russia. Innotrans. 2016; 3(21):3-7. DOI: 10.20291/2311-164X-2016-3-3-7 (In Russian).

22. Pokrovskaya O.D. Definition of parameters of a regions terminal network (by the example of Kemerovo region). Transport Urala. 2012; 1(32):93-97. (In Russian).

23. Polyansky Yu.A., Kurenkov P.V. Topological modeling of the interaction between the facilities of the railway. Transport: Science, Technology, Management. 2003; 7:8-18. (In Russian).

24. Polyansky Yu.A., Kurenkov P.V. Road center for situational management: problems of creation and functioning. Economy of Railways. 2003; 1:51-65. (In Russian).

25. Efremov V.A., Kurenkov P.V. Logistics of train traffic management. Logistics Today. 2004; 5:31-38. (In Russian).

26. Mokhonko V.P., Isakov V.S., Kurenkov P.V. Situational management of the transportation process. Transport: Science, Technology, Management. 2004; 11:14-16. (In Russian).

27. Bubnova G.V., Zenkin A.A., Kurenkov P.V. Transport corridors and axis in Eurasian communications. Logistics — the Eurasian bridge: materials of the 12th International Scientific and Practical Conference. 2017; 25-33. (In Russian).

28. Bykadorov S.A., Kurenkov P.V., Serkova A.V., Chirkova O.V. Analysis of methods for determining the cost of freight traffic. Bulletin of Transport. 2014; 3:30-41. (In Russian).

29. Naperov V.V., Grishkova D.Yu. The use of mapping in the analysis of operations at a railway station. Modern world economy: problems and prospects in the era of development of digital technologies and biotechnology: a collection of scientific articles based on the results of the ninth international round table. 2019; 138-140. (In Russian).

30. Manzurova D.S., Grishkova D.Yu. An alternative route for grain delivery to the ports of the Far East. Nauka. Technology. Innovations: collection of scientific papers. In 9 parts / ed. by A.V. Gadyukina. 2019; 806-809. (In Russian).

31. Grishkova D.Yu., Teslenko I.O. Workflow optimization in rail transport structures. Scientific problems of transport in Siberia and the Far East. 2018; 2:11-14. (In Russian).

32. Grishkova D.Yu., Teslenko I.O. Lean manufacturing as a basis for increasing productivity. Collection of scientific works of the Donetsk Institute of Railway Transport. 2018; 51:45-52. (In Russian).