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April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Lower Bounds and Heuristics for Supply Chain Stock Allocation

Published Online:1 Feb 2012https://doi.org/10.1287/opre.1110.1009

References

  • Aviv Y., Federgruen A. Capacitated multi-item inventory systems with random and seasonally fluctuating demands: Implications for postponement strategies. Management Sci. (2001) 47(4):512–531LinkGoogle Scholar
  • Axsäter S., de Kok A. G., Graves S. C. Supply chain operations: Serial and distribution inventory systems. Supply Chain Management: Design, Coordination and Operation (2003) 11(Elsevier, Amsterdam) 525–529Handbooks in Operations Research and Management ScienceCrossrefGoogle Scholar
  • Axsäter S., Marklund J. Optimal position-based warehouse ordering in divergent two-echelon inventory systems. Oper. Res. (2008) 56(4):976–991LinkGoogle Scholar
  • Axsäter S., Marklund J., Silver E. A. Heuristic methods for centralized control of one-warehouse, N-retailer inventory systems. Manufacturing Service Oper. Management (2002) 4(1):75–97LinkGoogle Scholar
  • Bollapragada S., Akella R., Srinivasan R. Centralized ordering and allocation policies in a two-echelon system with non-identical warehouses. Eur. J. Oper. Res. (1998) 106(1):74–82CrossrefGoogle Scholar
  • Cachon G. P. Exact evaluation of batch-ordering inventory policies in two-echelon supply chains with periodic review. Oper. Res. (2001) 49(1):79–98LinkGoogle Scholar
  • Cachon G. P., Fisher M. Supply chain inventory management and the value of shared information. Management Sci. (2000) 46(8):1032–1048LinkGoogle Scholar
  • Chao X., Zhou S. Optimal policy for multiechelon inventory systems with batch ordering and fixed replenishment intervals. Oper. Res. (2009) 57(2):377–390LinkGoogle Scholar
  • Clark A. J., Scarf H. Optimal policies for a multi-echelon inventory problem. Management Sci. (1960) 6(4):475–490LinkGoogle Scholar
  • Diks E. B., de Kok A. G. Optimal control of a divergent N-echelon inventory system. Eur. J. Oper. Res. (1998) 111(1):75–97CrossrefGoogle Scholar
  • Diks E. B., de Kok A. G. Computational results for the control of a divergent N-echelon inventory system. Internat. J. Production Econom. (1999) 59(1–3):327–336CrossrefGoogle Scholar
  • Dogru M. K. Optimal control of one-warehouse multi-retailer systems: An assessment of the balance assumption system. (2006) . Doctoral thesis, Beta Research School for Operations Management and Logistics, Technische Universiteit Eindhoven, Eindhoven, The NetherlandsGoogle Scholar
  • Eppen G., Schrage L., Schwarz L. Centralized ordering policies in a multi-warehouse system with leadtimes and random demand. Multi-Level Production/Inventory Control Systems: Theory and Practice (1981) (North Holland, Amsterdam) 51–69Google Scholar
  • Erkip N. Approximate policies in multi-echelon inventory systems. (1984) . Doctoral thesis, Department of Industrial Engineering and Engineering Management, Stanford University, Stanford, CAGoogle Scholar
  • Federgruen A., Graves S. C., Rinnooy Kan A. H. G., Zipkin P. Centralized planning models for multi-echelon inventory systems under uncertainty. Logistics of Production and Inventory (1993) 4(North Holland, Amsterdam) 133–173Handbooks in Operations Research and Management ScienceCrossrefGoogle 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. Computational issues in an infinite horizon, multi-echelon inventory model. Oper. Res. (1984b) 32(4):818–836LinkGoogle Scholar
  • Federgruen A., Zipkin P. Allocation policies and cost approximations for multilocation inventory systems. Naval Res. Logist. Quart. (1984c) 31(1):97–129CrossrefGoogle Scholar
  • Gallego G., Zipkin P. Stock positioning and performance estimation in serial production-transportation systems. Manufacturing Service Oper. Management (1999) 1(1):77–88LinkGoogle 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
  • Jackson P. L., Muckstadt J. A. Risk pooling in a two-period, two-echelon inventory stocking and allocation problem. Nav. Res. Logist. (1989) 36(1):1–26CrossrefGoogle Scholar
  • Jönsson H., Silver E. A. Analysis of a two-echelon inventory control system with complete redistribution. Management Sci. (1987) 33(2):215–277LinkGoogle Scholar
  • Kuhn D. Aggregation and discretization in multistage stochastic programming. Math. Programming (2008) 113(1):61–94CrossrefGoogle Scholar
  • Kumar A., Jacobson S. H. Optimal and near-optimal decisions for procurement and allocation of a critical resource with a stochastic consumption rate. (1998) . Working paper, University of Michigan Business School, Ann Arbor, MI. http://hdl.handle.net/2027.42/35811Google Scholar
  • Kumar A., Schwarz L. B., Ward J. E. Risk pooling along a fixed delivery route using a dynamic inventory-allocation policy. Management Sci. (1995) 41(2):344–362LinkGoogle Scholar
  • Manne A. Programming of economic lot-sizes. Management Sci. (1958) 4(2):115–135LinkGoogle 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
  • McGavin E. J., Ward J. E., Schwarz L. B. Balancing retailer inventories. Oper. Res. (1997) 45(6):820–830LinkGoogle Scholar
  • Özer Ö. Replenishment strategies for distribution systems under advance demand information. Management Sci. (2003) 49(3):252–272LinkGoogle Scholar
  • Rappold J. A., Muckstadt J. A. A computationally efficient approach for determining inventory levels in a capacitated multiechelon production-distribution system. Naval Res. Logist. (2000) 47(5):377–398CrossrefGoogle Scholar
  • Rosling K. Three essays on batch production. (1977) . Doctoral thesis, Department of Production Economics, Linköping University, Linköping, SwedenGoogle Scholar
  • Shang K. H., Zhou S. X. Optimal and heuristic (r, nQ, T) policies in serial inventory systems with fixed costs. Oper. Res. (2010) 58(2):414–427LinkGoogle Scholar
  • van der Heijden M. C. Multi-echelon inventory control in divergent systems with shipping frequencies. Eur. J. Oper. Res. (1999) 116(2):331–351CrossrefGoogle Scholar
  • van der Heijden M. C., Diks E. B., de Kok A. G. Stock allocation in general multi-echelon distribution systems with (R, S) order-up-to-policies. Internat. J. Production Econom. (1997) 49(2):157–174CrossrefGoogle Scholar
  • van Houtum G. J., Inderfurth K., Zijm W. H. M. Materials coordination in stochastic multi-echelon systems. Eur. J. Oper. Res. (1996) 95(1):1–23CrossrefGoogle Scholar
  • Verrijdt J. H. C. M., de Kok A. G. Distribution planning for divergent depotless two-echelon network under service constraints. Eur. J. Oper. Res. (1996) 89(2):341–354CrossrefGoogle Scholar
  • Zipkin P. On the imbalance of inventories in multi-echelon systems. Math. Oper. Res. (1984) 9(3):402–423LinkGoogle Scholar
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