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A Dynamic Inventory Model with Periodic Auditing

Author

Listed:
  • James Flynn

    (Cleveland State University, Cleveland, Ohio)

  • Stanley Garstka

    (Yale University, New Haven, Connecticut)

Abstract

Consider a single-item, periodic review, stationary inventory model with stochastic demands, proportional ordering costs, and convex holding and shortage costs, where shortages are backordered and Veinott's well known terminal condition holds. Orders can be scheduled for any period, but the actual inventory level is determined every T periods through an audit. This leads to a dynamic programming model where stage n contains periods ( n − 1) T + 1 through nT . For both discounted and averaging criteria, a simple rule optimally describes the orders for the T periods of a stage as a function of the state (beginning inventory level) and the cumulative T -period order. The latter is optimally determined by a base stock policy with two base stock levels: one for the final stage, another for the rest. (The horizon may be finite or infinite.) Methods are presented for computing optimal policies, together with bounds on the costs of (suboptimal) myopic policies. Models with proportional costs and continuous demands are studied in detail. Computational experiments indicate that myopic policies perform quite well for such models. The selection of a best review period T is covered briefly. Applications of our model include just in time settings where audit decisions play a negligible role.

Suggested Citation

  • James Flynn & Stanley Garstka, 1990. "A Dynamic Inventory Model with Periodic Auditing," Operations Research, INFORMS, vol. 38(6), pages 1089-1103, December.
    • Handle: RePEc:inm:oropre:v:38:y:1990:i:6:p:1089-1103
    DOI: 10.1287/opre.38.6.1089
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    Citations

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    Cited by:

    1. Dong, Yachao & Maravelias, Christos T., 2021. "Terminal inventory level constraints for online production scheduling," European Journal of Operational Research, Elsevier, vol. 295(1), pages 102-117.
    2. Prak, Dennis & Teunter, Ruud & Riezebos, Jan, 2015. "Periodic review and continuous ordering," European Journal of Operational Research, Elsevier, vol. 242(3), pages 820-827.
    3. Lian, Zhaotong & Deshmukh, Abhijit & Wang, Jin, 2006. "The optimal frozen period in a dynamic production model," International Journal of Production Economics, Elsevier, vol. 103(2), pages 648-655, October.
    4. Hedenstierna, Carl Philip T. & Disney, Stephen M., 2016. "Inventory performance under staggered deliveries and autocorrelated demand," European Journal of Operational Research, Elsevier, vol. 249(3), pages 1082-1091.
    5. Chiang, Chi, 2009. "A periodic review replenishment model with a refined delivery scenario," International Journal of Production Economics, Elsevier, vol. 118(1), pages 253-259, March.
    6. James Flynn, 2001. "Selecting review periods for a coordinated multi‐item inventory model with staggered deliveries," Naval Research Logistics (NRL), John Wiley & Sons, vol. 48(5), pages 430-449, August.
    7. Hedenstierna, Carl Philip T. & Disney, Stephen M., 2018. "Avoiding the capacity cost trap: Three means of smoothing under cyclical production planning," International Journal of Production Economics, Elsevier, vol. 201(C), pages 149-162.
    8. Lian, Zhaotong & Deshmukh, Abhijit, 2009. "Analysis of supply contracts with quantity flexibility," European Journal of Operational Research, Elsevier, vol. 196(2), pages 526-533, July.
    9. Flynn, James, 2008. "An effective heuristic for the review period in an inventory model with staggered deliveries and normal demands," European Journal of Operational Research, Elsevier, vol. 186(2), pages 671-680, April.
    10. James Flynn, 2000. "Selecting T for a periodic review inventory model with staggered deliveries," Naval Research Logistics (NRL), John Wiley & Sons, vol. 47(4), pages 329-352, June.
    11. Xu, Kefeng & Leung, Mark T., 2009. "Stocking policy in a two-party vendor managed channel with space restrictions," International Journal of Production Economics, Elsevier, vol. 117(2), pages 271-285, February.

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