Help
Cart
Skip main navigation

Available Issues

April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Dynamic Capacity Management with General Upgrading

Published Online:25 Nov 2015https://doi.org/10.1287/opre.2015.1446

References

  • Acimovic J, Graves SC (2015) Making better fulfillment decisions on the fly in an online retail environment. M&SOM 17(1):34–51.LinkGoogle Scholar
  • Archibald TW, Sassen SAE, Thomas LC (1997) An optimal policy for a two depot inventory problem with stock transfer. Management Sci. 43(2):173–183.LinkGoogle Scholar
  • Axsäter S (2003) A new decision rule for lateral transshipments in inventory systems. Management Sci. 49(9):1168–1179.LinkGoogle Scholar
  • Bassok Y, Anupindi R, Akella R (1999) Single-period multiproduct inventory models with substitution. Oper. Res. 47(4):632–642.LinkGoogle Scholar
  • Bertsekas DP (2005a) Dynamic Programming and Optimal Control, Vol. 1 (Athena Scientific, Belmont, MA).Google Scholar
  • Bertsekas DP (2005b) Dynamic programming and suboptimal control: A survey from adp to mpc. Eur. J. Control 11(4–5):310–334.CrossrefGoogle Scholar
  • Bish EK, Wang Q (2004) Optimal investment strategies for flexible resources, considering pricing and correlated demands. Oper. Res. 52(6):954–964.LinkGoogle Scholar
  • Brenner U (2008) A faster polynomial algorithm for the unbalanced hitchcock transportation problem. Oper. Res. Lett. 36(4):408–413.CrossrefGoogle Scholar
  • Chen X, Sim M, Sun P, Zhang J (2008) A linear decision-based approximation approach to stochastic programming. Oper. Res. 56(2):344–357.LinkGoogle Scholar
  • Chod J, Rudi N (2005) Resource flexibility with responsive pricing. Oper. Res. 53(3):532–548.LinkGoogle Scholar
  • Chou MC, Chua GA, Teo C-P, Zheng H (2010) Design for process flexibility: Efficiency of the long chain and sparse structure. Oper. Res. 58(1):43–58.LinkGoogle Scholar
  • Chou MC, Chua GA, Teo C-P, Zheng H (2011) Process flexibility revisited: The graph expander and its applications. Oper. Res. 59(5):1090–1105.LinkGoogle Scholar
  • de Véricourt F, Karaesmen F, Dallery Y (2001) Assessing the benefits of different stock-allocation policies for a make-to-stock production system. M&SOM 3(2):105–121.LinkGoogle Scholar
  • de Véricourt F, Karaesmen F, Dallery Y (2002) Optimal stock allocation for a capacitated supply system. Management Sci. 48(11):1486–1501.LinkGoogle Scholar
  • Deshpande V, Cohen MA, Donohue K (2003) A threshold inventory rationing policy for service-differentiated demand classes. Management Sci. 49(6):683–703.LinkGoogle Scholar
  • Ding Q, Kouvelis P, Milner JM (2006) Dynamic pricing through discounts for optimizing multiple-class demand fulfillment. Oper. Res. 54(1):169–183.LinkGoogle Scholar
  • Fine CH, Freund RM (1990) Optimal investment in product-flexible manufacturing capacity. Management Sci. 36(4):449–466.LinkGoogle Scholar
  • Gallego G, Stefanescu C (2009) Upgrades, upsells and pricing in revenue management. Accessed November 18, 2015, http://ssrn.com/abstract=1334341.Google Scholar
  • Gallego G, van Ryzin GJ (1997) A multiproduct dynamic pricing problem and its applications to network yield management. Oper. Res. 45(1):24–41.LinkGoogle Scholar
  • Ha AY (1997) Stock-rationing policy for a make-to-stock production system with two priority classes and backordering. Naval Res. Logist. 44(5):457–472.CrossrefGoogle Scholar
  • Ha AY (2000) Stock rationing in an M/Ek/1 make-to-stock queue. Management Sci. 46(1):77–87.LinkGoogle Scholar
  • Hsu A, Bassok Y (1999) Random yield and random demand in a production system with downward substitution. Oper. Res. 47(2):277–290.LinkGoogle Scholar
  • Jordan WC, Graves SC (1995) Principles on the benefits of manufacturing process flexibility. Management Sci. 41(4):577–594.LinkGoogle Scholar
  • Leachman R (1987) Preliminary design and development of a corporate-level production system for the semiconductor industry. Working Paper ORC 86-11. Operations Research Center, University of California, Berkeley, CA.CrossrefGoogle Scholar
  • Liu Q, van Ryzin G (2008) On the choice-based linear programming model for network revenue management. M&SOM 10(2):288–310.LinkGoogle Scholar
  • Murty KG (1983) Linear Programming (John Wiley & Sons, New York).Google Scholar
  • Netessine S, Dobson G, Shumsky RA (2002) Flexible service capacity: Optimal investment and the impact of demand correlation. Oper. Res. 50(2):375–388.LinkGoogle Scholar
  • Parlar M, Goyal S (1984) Optimal ordering decisions for two substitutable product with stochastic demands. OPSEARCH 21:1–15.Google Scholar
  • Pasternack BA, Drezner Z (1991) Optimal inventory policies for substitutable commodities with stochastic demand. Naval Res. Logist. 38(2):221–240.CrossrefGoogle Scholar
  • Robinson LW (1990) Optimal and approximate policies in multiperiod, multilocation inventory models with transshipments. Oper. Res. 38(2):278–295.LinkGoogle Scholar
  • Rockafellar RT (1996) Convex Analysis (Princeton University Press, Princeton, NJ).Google Scholar
  • Savin SV, Cohen MA, Gans N, Katalan Z (2005) Capacity management in rental businesses with two customer bases. Oper. Res. 53(4):617–631.LinkGoogle Scholar
  • Shumsky RA, Zhang F (2009) Dynamic capacity management with substitution. Oper. Res. 57(3):671–684.LinkGoogle Scholar
  • Simchi-Levi D, Chen X, Bramel J (2014) The Logic of Logistics: Theory, Algorithms, and Applications for Logistics and Supply Chain Management, 3rd ed. (Springer, New York).CrossrefGoogle Scholar
  • Steinhardt C, Gönsch J (2012) Integrated revenue management approaches for capacity control with planned upgrades. Eur. J. Oper. Res. 223(2):380–391.CrossrefGoogle Scholar
  • Talluri KT, van Ryzin GJ (2004a) Revenue management under a general discrete choice model of consumer behavior. Management Sci. 50(1):15–33.LinkGoogle Scholar
  • Talluri KT, van Ryzin GJ (2004b) The Theory and Practice of Revenue Management (Springer, New York).CrossrefGoogle Scholar
  • Topkis DM (1968) Optimal ordering and rationing policies in a nonstationary dynamic inventory model with n demand classes. Management Sci. 15(3):160–176.LinkGoogle Scholar
  • Topkis DM (1998) Supermodularity and Complementarity (Princeton University Press, Princeton, NJ).CrossrefGoogle Scholar
  • Van Mieghem JA (1998) Investment strategies for flexible resources. Management Sci. 44(8):1071–1078.LinkGoogle Scholar
  • Van Mieghem JA (2003) Capacity management, investment, and hedging: Review and recent developments. M&SOM 5(4):269–302.LinkGoogle Scholar
  • Van Mieghem JA, Rudi N (2002) Newsvendor networks: Inventory management and capacity investment with discretionary activities. M&SOM 4(4):313–335.LinkGoogle Scholar
  • Wall M (2003) Manufacturing flexibility. Automotive Industries 183(10):44–45.Google Scholar
  • Xu H, Yao DD, Zheng S (2011) Optimal control of replenishment and substitution in an inventory system with nonstationary batch demand. Production Oper. Management 20(5):727–736.CrossrefGoogle Scholar
  • Yao DD, Zheng S (2003) Substitutable inventory: Single- and multiperiod models. Shanthikumar JG, Yao DD, Henk Z, eds. Stochastic Modeling and Optimization of Manufacturing Systems and Supply Chains, Vol. 63 (Kluwer Academic Publishers, Boston), 177–201.CrossrefGoogle Scholar
  • Zhang D (2011) An improved dynamic programming decomposition approach for network revenue management. M&SOM 13(1):35–52.LinkGoogle Scholar
  • Zhang D, Cooper WL (2005) Revenue management for parallel flights with customer-choice behavior. Oper. Res. 53(3):415–431.LinkGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree