대한산업공학회지 (Journal of Korean Institute of Industrial Engineers)

  • 제30권4호
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  • Pages.294-300
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  • 2004
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  • 1225-0988(pISSN)
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  • 2234-6457(eISSN)
대한산업공학회 (Korean Institute of Industrial Engineers)
권호 표지

임의 저장방식 하에서 기업 내 저장공간과 외부의 임차공간에 대한 최적 규모 결정

Optimal Sizing of In-Plant and Leased Storage Spaces under a Randomized Storage Policy

  • 이문규 (계명대학교 산업시스템공학과)
  • Lee, Moon-Kyu (Department of Industrial and Systems Engineering, Keimyung University)
  • 발행 : 2004.12.31
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초록

This paper considers a trade-off effect between in-house storage space and leased storage space in generic warehouses operated under a randomized storage assignment policy. The amount of in-house storage space is determined based on the law of large numbers satisfying a given service level of protection against space shortages. Excess space requirement is assumed to be met via leased storage space. A new analytic model is formulated for determining the excess space such that the total cost of storage space is minimized. Finally, computational results are provided for the systems where the standard economic-order-quantity inventory model is used for all items.

키워드

참고문헌

  1. Ballou, R. H. (1999), Business Logistics Management, 4-th Ed., Prentice Hall, New Jersey, USA
  2. Bazaraa, M. S., Sherali, H. D., and Shetty, C. M. (1993), Nonlinear programming: Theory and algorithms, John Wiley & Sons, New York
  3. Bozer, Y. A. and White, J. A. (1984), Travel Time Models for Automated Storage/Retrieval Systems, IIE Transactions, 16(4),329-338 https://doi.org/10.1080/07408178408975252
  4. Chen, F. Y., Hum, S. H., and Sun, J. (2001), Analysis of Third-Party Warehousing Contracts with Commitments European Journal of Operational Research, 131, 603-610
  5. Cormier, G. and Gunn, E. A. (1992), A Review of Warehouse Models, European Journal of Operational Research, 58(1), 3-13 https://doi.org/10.1016/0377-2217(92)90231-W
  6. Cormier, G. and Gunn, E. A. (1996a), On Coordinating Warehouse Sizing, Leasing and Inventory Policy, IIE Transactions, 28(2), 149-154 https://doi.org/10.1080/07408179608966260
  7. Cormier, G. and Gunn, E. A. (1996b), Simple Models and Insights for Warehousing Sizing. Journal of the Operational Research Society, 47(5),149-154
  8. Francis, R. L., McGinnis, L. F. Jr., and White, J. A. (1992), Facility Layout and Location: An Analytical Approach, Prentice Hall, New Jersey, USA
  9. Hausman, W. H., Schwarz, L. B., and Graves, S. C. (1976), Optimal Storage Assignments in Automated Warehousing Systems, Management Science, 22(6), 629-638 https://doi.org/10.1287/mnsc.22.6.629
  10. Hung, M. S. and Fisk, C. J. (1984), Economic Sizing of Warehouses- a Linear Programming Approach, Computers and Operations Research, 11(1), 13-18 https://doi.org/10.1016/0305-0548(84)90003-0
  11. Jucker, J. V., Carlson, R. C., and Kropp, D. H. (1982), The Simultaneous Determination of Plant and Leased Warehouse Capacities for a Firm Facing Uncertain Demand in Several Regions, IIE Transactions, 14(2), 99-108
  12. Lee, M.-K. (1999), Optimal Storage Capacity under Random Storage Assignment and Class-based Assignment Storage Policies, Journal of the Korean Institute of Industrial Engineers, 25(2), 79-89
  13. Lee, M.-K. (2001), Warehouse Storage Capacity with Leased Space for Different Storage Policies, Journal of the Korean Institute of Industrial Engineers, 27(4), 328-336
  14. Liu, F. F. (1992), Travel Time Models for Partitioning Block-and L-shaped Storage Zones for ASIRS, Proceedings of the International Material Handling Research Colloquium, Milwaukee, Wisconsin, 283-302
  15. Lowe, T. J., Francis, R. L., and Reinhardt, E. W. (1979), A Greedy Network Flow Algorithm for a Warehouse Leasing Problems, AIIE Transactions, 11(3), 170-182
  16. Page, E. and Paul, R. J. (1976), Multi-Product Inventory Situations with One Restrictions, Operational Research Quarterly, 27, 15-834
  17. Rao, A. K. and Rao, M. R. (1998), Solution Procedures for Sizing of Warehouses, European Journal of Operational Research, 108(1),16-25 https://doi.org/10.1016/S0377-2217(97)00159-8
  18. Roll, Y., Rosenblatt, M. J., and Kadosh, D. (1989), Determining the Size of Warehouse Container, International Journal of Production Research, 27(10), 1693-1704 https://doi.org/10.1080/00207548908942648
  19. Rosenblatt, M. J.and Roll Y. (1988), Warehouse Capacity in a Stochastic Environment, International Journal of Production Research, 26(12), 1847-1851 https://doi.org/10.1080/00207548808947999
  20. Rosenblatt, M. J. and Roll, Y. (1984), Warehouse Design with Storage Policy Considerations, International Journal of Production Research, 22(5), 809-821 https://doi.org/10.1080/00207548408942501
  21. White, J. A. and Francis, R. L. (1971), Normative Models for Some Warehouse Sizing Problems, AIIE Transactions, 9(3), 185-190
  22. Zhou, G., Min, H., and Gen, M. (2001), The Allocation of Customers to Capacitated Primary and Secondary Warehouses: Genetic Algorithm Approach, Working paper series, No. 2001-9, Logistics and Distribution Institute, Univ. of Louisville, USA