Capacity Rationing in Stochastic Rental Systems with Advance Demand Information

References

• Albright S. C. Structure of optimal policies in complex queueing systems. Oper. Res. (1977) 25:1020–1027Link, Google Scholar
• Altman E., Jimenez T., Koole G. On optimal call admission control in a resource-sharing system. IEEE Trans. Comm. (2001) 49:1659–1668Crossref, Google Scholar
• Belobaba P. Application of a probabilistic decision model to airline seat inventory control. Oper. Res. (1989) 37:183–197Link, Google Scholar
• Bertsimas D., Popescu I. Revenue management in a dynamic network environment. Transportation Sci. (2003) 37:257–277Link, Google Scholar
• Bitran G., Mondschein S. An application of yield management to the hotel industry considering multiple day stays. Oper. Res. (1995) 43:427–443Link, Google Scholar
• Boutilier C., Dean T., Hanks S. Decision-theoretic planning: Structural assumptions and computational leverage. J. Artificial Intelligence Res. (1999) 11:1–94Crossref, Google Scholar
• Deshpande V., Cohen M. A., Donohue K. A threshold inventory rationing policy for service-differentiated demand classes. Management Sci. (2003) 49:683–703Link, Google Scholar
• De Véricourt F., Karaesmen F., Dallery Y. Dynamic scheduling in a make-to-stock system: A partial characterization of optimal policies. Oper. Res. (2000) 48:811–819Link, Google Scholar
• De Véricourt F., Karaesmen F., Dallery Y. Assessing the benefits of different stock allocation policies for a make-to-stock production system. Manufacturing Service Oper. Management (2001) 3:105–121Link, Google Scholar
• De Véricourt F., Karaesmen F., Dallery Y. Optimal stock allocation for a capacitated supply system. Management Sci. (2002) 48:1486–1501Link, Google Scholar
• Frank K. C., Zhang R. Q., Duenyas I. Optimal policies for inventory systems with priority demand classes. Oper. Res. (2003) 51:993–1002Link, Google Scholar
• Gallego G., Özer Ö. Integrating replenishment decisions with advance demand information. Management Sci. (2001) 47:1344–1360Link, Google Scholar
• Gallego G., Özer Ö. Optimal replenishment policies for multi-echelon inventory problems under advance demand information. Manufacturing Service Oper. Management (2003) 5:157–175Link, Google Scholar
• Gans N., Savin S. Pricing and capacity rationing for rentals with uncertain durations. Management Sci. (2007) 53(3):390–401Link, Google Scholar
• Gayon J. P., Benjaafar S., de Véricourt F. Using imperfect advance demand information in production-inventory systems with multiple customer classes. Manufacturing Service Oper. Management (2009) 11(1):128–143Link, Google Scholar
• Ha A. Inventory rationing in a make-to-stock production system with several demand classes and lost sales. Management Sci. (1997) 43:1093–1103Link, Google Scholar
• Ha A. Y. Stock rationing in an M/Ek/1 make-to-stock queue. Management Sci. (2000) 46:77–87Link, Google Scholar
• Hariharan R., Zipkin P. Customer order information, lead times, and inventories. Management Sci. (1995) 41:1599–1607Link, Google Scholar
• Iravani S., Liu T. M., Luangkesorn K. L., Simchi-Levi D. A produce-to-stock system with advance demand information and secondary customers. Naval Res. Logist. (2007) 54:331–345Crossref, Google Scholar
• Karaesmen F., Buzacott J., Dallery Y. Integrating advance order information in make-to-stock production systems. IIE Trans. (2002) 34:649–662Crossref, Google Scholar
• Kemeny J. G., Snell J. L.Finite Markov Chains (1960) (Van Nostrand, Princeton, NJ) Google Scholar
• Lippman S. A. Applying a new device in the optimization of exponential queuing systems. Oper. Res. (1975) 23:687–710Link, Google Scholar
• Marklund J. Controlling inventories in divergent supply chains with advance-order information. Oper. Res. (2006) 54:988–1010Link, Google Scholar
• Miller B. A queueing reward system with several customer classes. Management Sci. (1969) 16:234–245Link, Google Scholar
• Nahmias S., Demmy S. W. Operating characteristics of an inventory system with rationing. Management Sci. (1981) 27:1236–1245Link, Google Scholar
• Örmeci E. L., Burnetas A. Admission control with batch arrivals. Oper. Res. Lett. (2004) 32:448–454Crossref, Google Scholar
• Örmeci E. L., Burnetas A., Van der Wal J. Admission policies for a two class loss system. Stochastic Models (2001) 17:513–539Crossref, Google Scholar
• Özer Ö., Wei W. Inventory control with limited capacity and advance demand information. Oper. Res. (2004) 52:988–1000Link, Google Scholar
• Papier F., Thonemann U. W. Queuing models for sizing and structuring rental fleets. Transportation Sci. (2008) 42:302–317Link, Google Scholar
• Puterman M.Markov Decision Processes—Discrete Stochastic Dynamic Programming (1994) (John Wiley & Sons, New York) Crossref, Google Scholar
• Ross S.Applied Probability Models with Optimization Applications (1970) (Holden-Day, San Francisco) Google Scholar
• Savin S., Cohen M., Gans N., Katalan Z. Capacity management in rental businesses with two customer bases. Oper. Res. (2005) 53:617–631Link, Google Scholar
• Shumsky R. A., Zhang F. Dynamic capacity management with substitution. (2004) . Working paper, University of Rochester, Rochester, NYGoogle Scholar
• Strang G.Linear Algebra and Its Applications (1980) 2nd ed.(Academic Press, New York) Google Scholar
• Talluri K. T., van Ryzin G. J.The Theory and Practice of Revenue Management (2004) (Springer, New York) Crossref, Google Scholar
• Topkis D. Optimal ordering and rationing policies in a nonstationary dynamic inventory model with n demand classes. Management Sci. (1968) 15:160–176Link, Google Scholar
• Wang B., Savin S. Capacity management in rental businesses with reservations. (2006) . Working paper, Columbia University, New YorkGoogle Scholar
• Whitt W. The pointwise stationary approximation for Mt/Mt/s queues is asymptotically correct as the rates increase. Management Sci. (1991) 37:307–314Link, Google Scholar