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Designing a Rational Distribution Network for Trading Companies

V. V. Dybskaya
V. V. Dybskaya
 et 
P. A. Sverchkov
P. A. Sverchkov
   | 27 juin 2017
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Publié en ligne: 27 juin 2017
Pages: 181 - 193
DOI: https://doi.org/10.1515/ttj-2017-0016
© Transport and Telecommunication Institute
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

1. Akinc, U., Khumawala, B.M. (1977) An Efficient Branch and Bound Algorithm for the CapacitatedWarehouse Location Problem. Management Science, Vol. 23, Issue 6, pp. 585-594Search in Google Scholar

2. Altiparmak, F., Gen, M., Lin L., Paksoy, T. (2006) A genetic algorithm approach for multi-objective optimization of supply chain networks. Computers & Industrial Engineering, Vol. 51, pp. 196-21510.1016/j.cie.2006.07.011Search in Google Scholar

3. Ambrosino, D., Scutella M.G. (2005) Distribution network design: New problems and related models. European Journal of Operational Research, Vol. 165, pp. 610-62410.1016/j.ejor.2003.04.009Search in Google Scholar

4. Anikin, B.А. (2010) Logistics. Moscow: Infra-M.Search in Google Scholar

5. Bassou, A.A., Hlyal, M., Alami J.E. (2016) Stores Location Model For Distribution Network Design: An Effective Variable neighbourhood Search Approach for a Two Level Capacitated Location Allocation Problem. Journal of Applied Sciences, Vol. 16, Issue 2, pp. 37-4610.3923/jas.2016.37.46Search in Google Scholar

6. Brandeau, M.L., Chiu, S.S. (1989) An overview of representative problems in location research. Management Science, Vol. 35, Issue 6, pp. 645-67410.1287/mnsc.35.6.645Search in Google Scholar

7. Cooper, L. (1963) Location-Allocation Problems. Operations Research, Vol. 11. Issue 3, pp. 331-34310.1287/opre.11.3.331Search in Google Scholar

8. Daskin, M.S. (2008) What You Should Know About Location Modelling. Naval Research Logistics, Vol. 55, pp. 283-29410.1002/nav.20284Search in Google Scholar

9. Daskin, M.S. (2013) Network and Discrete Location: Models, Algorithms and Applications. 2nd Edition. New York: John Wiley & Sons, Inc.10.1002/9781118537015Search in Google Scholar

10. Domschke, W., Drexl, A. (1990) Logistik: Standorte. 3 Auflage, München: Springer.Search in Google Scholar

11. Dybskaya, V.V. (2012) Basic approach to design and reorganization of a distribution network. Logistics and Supply Chain Management, Vol. 51 (4), pp. 9-15Search in Google Scholar

12. Dybskaya, V.V., Sverchkov, P.A. (2015) Approach to design a rational distribution network of a retail company. Logistics and Supply Chain Management, Vol. 66 (1), pp. 44-59Search in Google Scholar

13. Dybskaya, V.V., Zaytsev E.I., Sergeev V.I., Sterligova, A.N. (2008) Logistics. Integration and optimization of logistic business processes in supply chains: manual for MBA students. Moscow: Eksmo.Search in Google Scholar

14. Erlenkotter, D. (1989) The general optimal market area model. Annals of Operations Research, Vol. 18, Issue №1, pp. 43-7010.1007/BF02097795Search in Google Scholar

15. Geoffrion, A.M., Graves, G.V. (1974) Multicommodity Distribution System Design by Benders Decomposition. Management Science, Vol. 20, Issue 5, pp. 822-84410.1287/mnsc.20.5.822Search in Google Scholar

16. Jayaraman, V., Ross, A. (2003) A simulated annealing methodology to distribution network design and management. European Journal of Operational Research, Vol. 144, pp. 629-64510.1016/S0377-2217(02)00153-4Search in Google Scholar

17. Klose, A., Drexl, A. (2005) Facility location models for distribution system design. European Journal of Operational Research, Vol. 162, pp. 4-2910.1016/j.ejor.2003.10.031Search in Google Scholar

18. Love, R.F. (1976) One-Dimensional Facility Location-Allocation Using Dynamic Programming. Management Science, Vol. 22, Issue 5, pp. 614-61710.1287/mnsc.22.5.614Search in Google Scholar

19. Lozano, S., Guerrero, F., Onieva, L., Larraneta, J. (1998) Kohonen maps for solving to a class of location-allocation problems. European Journal of Operational Research, Vol. 108, pp. 106-11710.1016/S0377-2217(97)00046-5Search in Google Scholar

20. Lukinskiy, V.S., Bochkarev, A.A., Pekhovskiy О.Y., Tsvirynko, I.A. (2002) Evaluation of an impact of warehouse network design to transportation costs. Economics and Management in Transportation, Vol. 2, pp. 88-96Search in Google Scholar

21. Melo, M.T., Nickel, S., Saldanha-da-Gama, F. (2009) Facility location and supply chain management - A review. European Journal of Operational Research, Vol. 196, pp. 401-41210.1016/j.ejor.2008.05.007Search in Google Scholar

22. Melo, M.T., Nickel, S., Saldanha-da-Gama, F. (2012) A tabu search heuristic for redesigning a multiechelon supply chain network over a planning horizon. Int. J. Production Economics, Vol. 136, pp. 218-23010.1016/j.ijpe.2011.11.022Search in Google Scholar

23. Merle, O., Villeneuve, D., Desrosiers, J., Hansen, P. (1999) Stabilized column generation. Discrete Mathematics, Vol. 194, Issues 1-3, pp. 229-23710.1016/S0012-365X(98)00213-1Search in Google Scholar

24. Nerush, Y.M. (2006) Logistics. 4th Edition. Moscow: Prospect.Search in Google Scholar

25. Sahina, G., Süralb, H. (2007) A review of hierarchical facility location models. Computers & Operations Research, Vol. 34, pp. 2310- 233110.1016/j.cor.2005.09.005Search in Google Scholar

26. Shapiro, V.D., Mazur, I.I. (2001) Project management. Moscow: Higher School.Search in Google Scholar

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