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April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Coordinated Replenishment Strategies in Inventory/Distribution Systems

Published Online:1 Feb 2007https://doi.org/10.1287/mnsc.1060.0627

References

  • Anily S., Tzur M. Shipping multiple items by capacitated vehicles: An optimal dynamic programming approach. Transportation Sci. (2005) 39(2):233–248LinkGoogle Scholar
  • Atkins D. R., Iyogun P. O. Periodic versus “can-order” policies for coordinated multi-item inventory systems. Management Sci. (1988) 34(6):791–796LinkGoogle Scholar
  • Aviv Y., Federgruen L. The operational benefits of information sharing and vendor managed inventory (VMI) programs. (1998) . Working paper, Olin School of Business, Washington University, St. Louis, MOGoogle Scholar
  • Axsäter S., Juntti L. Comparison of echelon stock and installation stock policies for two-level inventory systems. Internat. J. Production Econom. (1996) 45:303–310CrossrefGoogle Scholar
  • Axsäter S., Rosling K. Installation and echelon stock policies for multilevel inventory control. Management Sci. (1993) 39:1274–1280LinkGoogle Scholar
  • Axsäter S., Zhang W. F. A joint replenishment policy for multi-echelon inventory control. Internat. J. Production Econom. (1999) 59:243–250CrossrefGoogle Scholar
  • Balintfy J. L. On a basic class of multi-item inventory problems. Management Sci. (1964) 10:287–297LinkGoogle Scholar
  • Brockmann T. 21 warehousing trends in the 21st century. IIE Solutions (1999) 31(7):36–40Google Scholar
  • Cachon G. Managing supply chain demand variability with scheduled ordering policies. Management Sci. (1999) 45(6):843–856LinkGoogle Scholar
  • Cachon G. Managing a retailer’s shelf space, inventory, and transportation. Manufacturing Service Oper. Management (2001) 3(3):211–229LinkGoogle Scholar
  • Cachon G., Fisher M. Supply chain inventory management and value of shared information. Management Sci. (2000) 46(8):1032–1048LinkGoogle Scholar
  • Çetinkaya S., Lee C. Optimal outbound dispatch policies: Modeling inventory and cargo capacity. Naval Res. Logist. (2002) 49(6):531–556CrossrefGoogle Scholar
  • Çetinkaya S., Lee C. Stock replenishment and shipment scheduling for vendor managed inventory systems. Management Sci. (2000) 46(2):217–232LinkGoogle Scholar
  • Chan L. M. A., Muriel A., Shen Z. M., Simchi-Levi D., Teo C. Effective zero-inventory-ordering policies for the single warehouse multi-retailer problem with piecewise linear cost structures. Management Sci. (2002) 48(11):1446–1458LinkGoogle Scholar
  • Chen F., Drezner Z., Ryan J. K., Simchi-Levi D. Quantifying the bullwhip effect in a simple supply chain: The impact of forecasting, lead times, and information. Management Sci. (2000) 46(3):436–443LinkGoogle Scholar
  • Cheung K. L., Lee H. L. The inventory benefit of shipment coordination and stock rebalancing in a supply chain. Management Sci. (2002) 48(2):300–306LinkGoogle Scholar
  • Cheung K. L., Zhang S. H. Balanced and synchronized ordering in supply chains. IIE Trans. (2004) . ForthcomingGoogle Scholar
  • Delaney R. V. 10th annual state of logistics report. (1999) . Cass Information Systems, Inc., http://www.cassinfo.comGoogle Scholar
  • Eppen G., Schrage L., Schwarz L. Centralized ordering policies in a multiwarehouse system with lead times and random demands. Multi-Level Production/Inventory Control Systems: Theory and Practice (1981) (North-Holland, Amsterdam, The Netherlands) 51–69Google Scholar
  • Federgruen A., Zipkin P. Approximations of dynamic multilocation production and inventory problems. Management Sci. (1984a) 30(1):69–84LinkGoogle Scholar
  • Federgruen A., Zipkin P. A combined vehicle routing and inventory allocation problem. Oper. Res. (1984b) 32(5):1019–1037LinkGoogle Scholar
  • Federgruen A., Zheng Y. S. The joint replenishment problem with general joint cost structures. Oper. Res. (1992) 40(2):384–403LinkGoogle Scholar
  • Federgruen A., Groenevelt H., Tijms H. C. Coordinated replenishments in a multi-item inventory system with compound Poisson demands. Management Sci. (1984) 30(3):344–357LinkGoogle Scholar
  • Gavirneni S. Benefits of cooperation in a production distribution environment. Eur. J. Oper. Res. (2001) 130(3):612–622CrossrefGoogle Scholar
  • Gavirneni S., Tayur S. Value of information sharing and comparison with delayed differentiation. Quantitative Models for Supply Chain Management (1999) (Springer, Cambridge, MA) 443–466CrossrefGoogle Scholar
  • Graves S. C. A multi-echelon inventory model with fixed replenishment intervals. Management Sci. (1996) 42(1):1–18LinkGoogle Scholar
  • Gue K. R. Crossdocking: Just-in-time for distribution. (2001) . Working paper, Graduate School of Business & Public Policy, Naval Postgraduate School, Monterey, CAGoogle Scholar
  • Hadley G., Whitin T. M.Analysis of Inventory Systems (1963) (Prentice Hall, Englewood Cliffs, NJ) Google Scholar
  • Jackson P. L. Stock allocation in a two-echelon distribution system or “what to do until your ship comes in”. Management Sci. (1988) 34(7):880–895LinkGoogle Scholar
  • Kopczak L. R., Lee H., Whang S. Note on logistics in the information age. (2000) . Graduate School of Business Case GS19, Stanford University, Stanford, CAGoogle Scholar
  • Lee C. A solution to the multiple set-up problem with dynamic demand. IIE Trans. (1989) 21(3):266–270CrossrefGoogle Scholar
  • Lee C., Çetinkaya S., Jaruphongsa W. A dynamic model for inventory lot sizing and outbound shipment scheduling at a third-party warehouse. Oper. Res. (2003) 51(5):735–747LinkGoogle Scholar
  • Li C., Hsu V. N., Xiao W. Dynamic lot sizing with batch ordering and truckload discounts. Oper. Res. (2004) 52(4):639–654LinkGoogle Scholar
  • Lipmann S. A. Optimal inventory policy with multiple set-up costs. Management Sci. (1969) 16(1):118–138LinkGoogle Scholar
  • Maloney D. Canadian tire rolls out new DC. Modern Materials Handling (2002) . http://www.mmh.comGoogle Scholar
  • McGavin E. J., Schwarz L. B., Ward J. E. Two-interval inventory-allocation policies in a one-warehouse N-identical retailer distribution system. Management Sci. (1993) 39(9):1092–1107LinkGoogle Scholar
  • Moinzadeh K. A multi-echelon inventory system with information exchange. Management Sci. (2002) 48(3):414–426LinkGoogle Scholar
  • Ozkaya B., Gurler U., Berk E. Comparison of joint replenishment policies for a two-echelon inventory system. (2003) . Working paper, Bilkent University, Ankara, TurkeyGoogle Scholar
  • Ross S. M.Introduction to Probability Models (1993) 5th ed.(Academic Press, San Diego, CA) Google Scholar
  • Schwarz L. B. A model for assessing the value of warehouse risk-pooling: Risk-pooling over supplier lead times. Management Sci. (1989) 35(7):828–842LinkGoogle Scholar
  • Toptal A., Çetinkaya S., Lee C. The buyer-vendor coordination problem: Modeling inbound and outbound cargo capacity and costs. IIE Trans. Logist. Scheduling (2003) 35(11):987–1002CrossrefGoogle Scholar
  • Viswanathan S. Note. Periodic review (s, S) policies for joint replenishment inventory systems. Management Sci. (1997) 43(10):1447–1454LinkGoogle Scholar
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