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ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes

Tytuł artykułu

Optimization of information flows of logistic supply chain

Autorzy Oliskevych, M. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
EN This research is devoted to the problem of information flows of logistic system of goods supplying. Information messages appear at moment of material flows which should be consider as discrete one. It gives an ability to research all changes that can occur to input material flow. Moreover, it makes a possibility to obtain analytic dependence of showers of effectively of system from parameter of information and material flows interaction. Logistic chain was first decomposed on four basic logistic operation such as distributing, unitizing, breaking up, speed up. Three parameters were used to characterize them. All that parameters depend of main flow of goods, packets, transport packets. The principle of solid material flows was applied. Then points of control were defined. It was researched two parts of main problem. First deals with a increasing material flows andconsequences of logistic chain adopting after that. Second deals with an decreasing flow. Control of several ways of different changes of logistic schemas depends of existed information flows which may be sent at one of defined control point. The criteria of material and information flows interaction effectiveness is total time delay per unit. The principle of streamlining is just-in-time. Deviation of appointed moment of operation starting or finishing equals to additional costs. The result consists the dependence of total delay per unit from structure of information flows. It can be used as a condition of real logistic schema optimization.
Słowa kluczowe
EN logistic chain   material flow   information flow   time delay  
Wydawca Polish Academy of Sciences, Branch in Lublin
Czasopismo ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes
Rocznik 2015
Tom Vol. 4, No 4
Strony 71--76
Opis fizyczny Bibliogr. 26 poz., rys., wz.
autor Oliskevych, M.
1. Skorik E., Kondratyuk V. 2007. The use of satellite navigation and communication technologies in the trucking industry. Science and Innovation, Vol. 3. №1. 67-83.
2. Oliskevych M. S. 2008. Concept of architecture information system backbone network. Bulletin of Zhytomyr State Technological University, vol. III (46). Part. II. 98-103. (in Ukrainian).
3. Chukhrai N. I. and Hirna O. N. 2007. Formation of the supply chain: Theory and Practice, L'viv: "Intelligence-West", 237. (in Ukrainian).
4. Prytula N., Yeleyko J., M. Prytula M. 2006. Nonlinear transport problem on weighted graphs // Herald of L'viv. Univ. - Avg. glue. Mat. and inform. Vol. 11, 244-254. (in Ukrainian).
5. Babushkin G. F., Kuz'kin A. F. 2000. Operational scheduling of small size group delivery of goods in terms of steel production. Bulletin of the Central Research Center Academy Ukraine. №3. Kyiv: Transport. 48-50. (in Russian).
6. Belenkyy A. S. , Loewner E. V. 1989. Application of models and methods scheduling theory in problems of optimal Scheduling for freight transport. Automation and telemechanics. №1, 3-77. (in Russian).
7. Vorkut A. I. 1986. Cargo automobile transportation. Kyiv: High School, 477.
8. Kutah A. P. 2004. Modeling of transport systems. Kyiv. University of Economics and Technology of Transport. 196. (in Ukrainian).
9. Toluev YI, Nekrasov AG, SI Morozov 2005. Analysis and Modeling of material flows in supplies network Integer Logistics, № 5, Moscow, VINITI. 7-14. (in Russian).
10. Dolia V. K., Kalynychenko A. P. 1999. Question of coordination join work trucks and loading-unloading stations, Vestnik HNADTU. Kharkov. Nr 10, 61-63. (in Russian).
11. Parunakyan B. E. , Gusev V., Sizova E. I. 2006. About the problem of logistic chains of transport cargo systems of metallurgical enterprises. Bulletin of Azov State Technical university, № 16. 220- 226. (in Russian).
12. Kotenko A. M. , Kovalev A. A. 2003. Logistic model of delivery from source to destination. Collection Research works. Kharkov: UkrDAZT, № 53, 25-29. (in Ukrainian).
13. Zaichenko Y. P. 2003. Computer networks. Kyiv: Publishing House "Word", 288. (in Ukrainian).
14. Burov E. 2003. Computer networks. L'viv: Buck, 584. (in Ukrainian).
15. Zhitkov V. A. , Kim K. V. 1982. Operational methods scheduling cargo truck transit. Moscow: Transport, 184. (in Russian).
16. Rayhard Yunemann 1989. Material flows in logistics. Berlin: Shkrynher, 286.
17. Kuzminskyy R. D., Kulchytsky-Zhyhaylo R. D. 1991. Algorithm of structural modeling of processes disassembly and assembly. The organizational and process interaction between agricultural enterprises in the process of repairing agricultural machinery. L'viv in L'viv. Agricultural Inst, 12-20. (in Ukrainian).
18. Tanajev V. S., Sotskov Y. N. 1989. Theory of scheduling. Multistage systems. Moscow: Science. Ch. Ed. fyz.-mate. lit., 328. (in Russian).
19. Semenov V. V. 2006. The change of paradigm in theory transport flows. Institute of Applied Mathematic of Keldysh Russian Academy of Science. Available online of <>
20. Vorkut T. A. 2003. Modeling processes and parameters of transport in interacting storage systems. Bulletin of Northern Scientific Center of Transport Academy of Ukraine. Issue 6. 92-93. (in Ukrainian).
21. Petrovich J.P. and Novakivskii I.I. 2012. Modern concept of a model design of an organizational system of enterprise management // ECONTECHMOD. An International Quarterly Journal On Economics In Technology, New Technologies And Modeling Processes. Vol. 1, No. 4, 41-49.
22. Shramenko N. Y. 2014. Development of theoretical and technological bases of effective functioning of the terminal for delivery of goods. Thesis. ... Dr. Sc. Sciences: Kharkov. national Automobile Road Univ. Kharkov, 39. (in Ukrainian).
23. Vilkovskyy J. K., Oliskevych M. S., Dorosh V. N. 2006. Method of determining the required number of vehicles on the pendulum routes. Bulletin NTU, №13, Part 2, 68-72. (in Ukrainian).
24. Oliskevych M. S. 2013. Optimization of transport cycles depending on the amount of projected cargo. Bulletin of East Ukrainian National University after Volodymyr Dahl. № 5 (194). Part 1. 140-145. (in Ukrainian).
25. Davydov E. G. 1990. Research operations: Textbook. for students to universities. Moscow: High school. 383. (in Russian).
26. Zhivitskaya H. 2014. Topological properties and methodology of research of complex logistic systems efficiency // ECONTECHMOD. An International Quarterly Journal On Economics In Technology, New Technologies And Modeling Processes. Vol. 3, No. 3, 23-33.
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