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IBM Journal of Research and Development
Business Optimization   Volume 51, Number 3/4, 2007
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Inventory budget optimization: Meeting system-wide service levels in practice - References

 by P. Korevaar,
U. Schimpel,
and R. Boedi
References

  1. R. Boedi and U. Schimpel, “Managing Risk Within Supply Chains: Using Adaptive Safety Stock Calculations for Improved Inventory Control,” Handbook of Integrated Risk Management for E-Business: Measuring, Modeling, and Managing Risk, A. Labbi, Editor, J. Ross Publishing, Fort Lauderdale, FL, 2005, pp. 87–112.
  2. B. Enslow, “IBM Puts a Pragmatic Face on Advanced Inventory Optimization,” Aberdeen Group; see http://www.aberdeen.com/c/report/research_briefs/RB_IBM_DIOS_BE_2915.pdf.
  3. i2 Service Budget Optimizer, i2 Technologies; see http://i2.com/assets/pdf/PDS_service_budget_optimizer_v61_pds7242_072704.pdf.
  4. Inventory Chain Optimization (ICO), GAINSystems; see http://www.gainsystems.com/.
  5. ToolsGroup, “What is Inventory Optimization?,” white paper; may be accessed by filling out a free registration form at http://www.toolsgroup.com/learning_more.html.
  6. ToolsGroup, “Recent Trends in Inventory Optimization,” white paper; may be accessed by filling out a free registration form at http://www.toolsgroup.com/learning_more.html.
  7. S. Minner, “Multiple-Supplier Inventory Models in Supply Chain Management: A Review,” Intl. J. Production Economics 81/82, No. 1, 265–279 (2003).
  8. M. F. Neuts, “An Inventory Model with an Optional Time Lag,” J. Soc. Indust. & Appl. Math. 12, No. 1, 179–185 (1964).
  9. H. E. Scarf, “The Optimality of (Ss) Policies in the Dynamic Inventory Problem,” Mathematical Methods in the Social Sciences, K. J. Arrow, S. Karlin, and P. Suppes, Editors, Stanford University Press, Stanford, CA, 1960.
  10. A. F. Veinott, “The Status of Mathematical Inventory Theory,” Manage. Sci. 12, No. 11, 745–777 (1966).
  11. Y. Fukuda, “Optimal Policies for the Inventory Problem with Negotiable Leadtime,” Manage. Sci. 10, No. 4, 690–708 (1964).
  12. A. S. Whittemore and S. C. Saunders, “Optimal Inventory Under Stochastic Demand with Two Supply Options,” SIAM J. Appl. Math. 32, No. 2, 293–305 (1977).
  13. K. Moinzadeh and S. Nahmias, “A Continuous Review Model for an Inventory System with Two Supply Modes,” Manage. Sci. 34, No. 6, 761–773 (1988).
  14. S. G. Johansen and A. Thorstenson, “An Inventory Model with Poisson Demands and Emergency Orders,” Intl. J. Production Economics 56/57, No. 1, 275–289 (1998).
  15. D. Sculli and S. Y. Wu, “Stock Control with Two Suppliers and Normal Lead Times,” J. Oper. Res. Soc. 32, No. 11, 1003–1009 (1981).
  16. R. V. Ramasesh, J. K. Ord, J. C. Hayya, and A. Pan, “Sole Versus Dual Sourcing in Stochastic Lead-Time (sQ) Inventory Models,” Manage. Sci. 37, No. 4, 428–443 (1991).
  17. D. J. Thomas and J. E. Tyworth, “Pooling Lead-Time Risk by Order Splitting: A Critical Review,” Transport. Res. Part E 42, 245–257 (2006); see http://www.personal.psu.edu/faculty/d/j/djt11/papers/tre.pdf.
  18. J. C. Mitchell, “Multi-Item Inventory Systems with a Service Objective,” Oper. Res. 36, No. 5, 747–755 (1988).
  19. U. W. Thonemann, A. O. Brown, and W. H. Hausman, “Easy Quantification of Improved Spare Parts Inventory Policies,” Manage. Sci. 48, No. 9, 1213–1225 (2002).
  20. W. J. Hopp, M. L. Spearman, and R. Q. Zhang, “Easily Implementable Inventory Control Policies,” Oper. Res. 45, No. 3, 327–340 (1997).
  21. M. Schwarz, “Die K-Kurven-Methode und Sicherheitsbestände,” Master's Thesis, University of Hamburg, D-20146 Hamburg, Germany, 1999.
  22. L. W. G. Strijbosch, R. M. J. Heuts, and E. H. M. van der Schoot, “A Combined Forecast–Inventory Control Procedure for Spare Parts,” J. Oper. Res. Soc. 51, No. 10, 1184–1192 (2000).
  23. J. D. Croston, “Stock Levels for Slow-Moving Items,” Oper. Res. Quart. 25, No. 1, 123–130 (1974).
  24. P. H. Zipkin, Foundations of Inventory Management, McGraw-Hill, Boston, MA, 2000.
  25. H. Tempelmeier, Inventory Management in Supply Networks—Problems, Models, Solutions, Books on Demand GmbH, 22848 Norderstedt, Germany, 2006; ISBN 3833453737.
  26. G. Dueck and T. Scheuer, “Threshold Accepting: A General Purpose Optimization Algorithm Appearing Superior to Simulated Annealing,” J. Comput. Phys. 90, No. 1, 161–175 (1990).
  27. S. Kirkpatrick, C. D. Gelatt, Jr., and M. P. Vecchi, “Optimization by Simulated Annealing,” Science 220, No. 4598, 671–680 (1983).
  28. R. W. Eglese, “Simulated Annealing: A Tool for Operational Research,” Euro. J. Oper. Res. 46, No. 3, 271–281 (1990).
  29. G. Dueck, T. Scheuer, and H.-M. Wallmeier, “The C.H.I.P. Algorithm,” Technical Report 75.91.25, IBM Germany, Heidelberg Scientific Center, D-69115 Heidelberg, Germany, 1991.


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