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April 12, 2013 - June 15, 2026

Available Issues

April 12, 2013 - June 15, 2026

Constrained Pricing in Logit-Based Revenue Management

Published Online:20 Feb 2026https://doi.org/10.1287/ijoc.2024.0852

References

  • Adelman D (2007) Dynamic bid prices in revenue management. Oper. Res. 55(4):647–661. LinkGoogle Scholar
  • Afèche P (2013) Incentive-compatible revenue management in queueing systems: Optimal strategic delay. Manufacturing Service Oper. Management 15(3):423–443.LinkGoogle Scholar
  • Ata B, Akan M (2015) On bid-price controls for network revenue management. Stochastic Systems 5(2):268–323.LinkGoogle Scholar
  • Bitran G, Caldentey R (2003) An overview of pricing models for revenue management. Manufacturing Service Oper. Management 5(3):203–229.LinkGoogle Scholar
  • Borenstein S, Holland SP (2005) On the efficiency of competitive electricity markets with time-invariant retail prices. RAND J. Econom. 36(3):469–493.Google Scholar
  • Cross R (1997) Revenue Management: Hard-Core Tactics for Market Domination (Broadway Books, New York).Google Scholar
  • De Farias DP, Van Roy B (2003) The linear programming approach to approximate dynamic programming. Oper. Res. 51(6):850–865.LinkGoogle Scholar
  • Deksnyte I, Lydeka Z (2012) Dynamic pricing and its forming factors. Internat. J. Bus. Soc. Sci. 3(23):213–220. Google Scholar
  • Dinkelbach W (1967) On nonlinear fractional programming. Management Sci. 13(7):492–498.LinkGoogle Scholar
  • Dong L, Kouvelis P, Tian Z (2009) Dynamic pricing and inventory control of substitute products. Manufacturing Service Oper. Management 11(2):317–339.LinkGoogle Scholar
  • Elmaghraby W, Keskinocak P (2003) Dynamic pricing in the presence of inventory considerations: Research overview, current practices, and future directions. Management Sci. 49(10):1287–1309.LinkGoogle Scholar
  • Erdelyi A, Topaloglu H (2011) Using decomposition methods to solve pricing problems in network revenue management. J. Revenue Pricing Management 10:325–343.CrossrefGoogle Scholar
  • Gallego G, Van Ryzin G (1997) A multiproduct dynamic pricing problem and its applications to network yield management. Oper. Res. 45(1):24–41.LinkGoogle Scholar
  • Gönsch J, Klein R, Steinhardt C (2009) Dynamic pricing—State-of-the-art. Zeitschrift Für Betriebswirtschaft Ergänzungsheft 3:1–40.Google Scholar
  • Gurobi Optimization, LLC (2024) Gurobi Optimizer reference manual. Accessed February 8, 2026, Available at https://www.gurobi.com.Google Scholar
  • Hanson W, Martin K (1996) Optimizing multinomial logit profit functions. Management Sci. 42(7):992–1003.LinkGoogle Scholar
  • Harsha P, Subramanian S, Ettl M (2019) A practical price optimization approach for omnichannel retailing. INFORMS J. Optim. 1(3):241–264.LinkGoogle Scholar
  • Kraft D (1988) A software package for sequential quadratic programming. DFVLR-FB 88-28, Forschungsbericht- Deutsche Forschungs- Und Versuchsanstalt Fur Luft- Und Raumfahrt.Google Scholar
  • Kunnumkal S, Topaloglu H (2008) A refined deterministic linear program for the network revenue management problem with customer choice behavior. Naval Res. Logist. 55(6):563–580.CrossrefGoogle Scholar
  • Kunnumkal S, Topaloglu H (2010) A new dynamic programming decomposition method for the network revenue management problem with customer choice behavior. Production Oper. Management 19(5):575–590.CrossrefGoogle Scholar
  • Lambrecht A, Skiera B (2006) Paying too much and being happy about it: Existence, causes, and consequences of tariff-choice biases. J. Marketing Res. 43(2):212–223.CrossrefGoogle Scholar
  • Levin Y, McGill J, Nediak M (2008) Risk in revenue management and dynamic pricing. Oper. Res. 56(2):326–343.Google Scholar
  • Li H, Huh WT (2011) Pricing multiple products with the multinomial logit and nested logit models: Concavity and implications. Manufacturing Service Oper. Management 13(4):549–563.LinkGoogle Scholar
  • Lin MH, Carlsson JG, Ge D, Shi J, Tsai JF (2013) A review of piecewise linearization methods. Math. Problems Engrg. 2013:101376.Google Scholar
  • Liu Q, Van Ryzin G (2008) On the choice-based linear programming model for network revenue management. Manufacturing Service Oper. Management 10(2):288–310.LinkGoogle Scholar
  • Lundell A, Westerlund T (2013) Refinement strategies for piecewise linear functions utilized by reformulation-based techniques for global optimization. Castro PM, Harjunkoski I, eds. Computer Aided Chemical Engineering, vol. 32 (Elsevier, Amsterdam), 529–534.Google Scholar
  • Lundell A, Westerlund J, Westerlund T (2009) Some transformation techniques with applications in global optimization. J. Global Optim. 43:391–405.CrossrefGoogle Scholar
  • Meissner J, Strauss A (2012) Network revenue management with inventory-sensitive bid prices and customer choice. Eur. J. Oper. Res. 216(2):459–468.CrossrefGoogle Scholar
  • Shao Q, Mai T, Cheng SF (2025) Constrained pricing in logit-based revenue management. https://doi.org/10.1287/ijoc.2024.0852.cd, https://github.com/INFORMSJoC/2024.0852.Google Scholar
  • Subramanian S, Sherali HD (2010) A fractional programming approach for retail category price optimization. J. Global Optim. 48(2):263–277.CrossrefGoogle Scholar
  • Talluri KT, Van Ryzin GJ (2004) The Theory and Practice of Revenue Management (Springer, New York).CrossrefGoogle Scholar
  • Topaloglu H (2009) Using Lagrangian relaxation to compute capacity-dependent bid prices in network revenue management. Oper. Res. 57(3):637–649.LinkGoogle Scholar
  • Train KE (2009) Discrete Choice Methods with Simulation (Cambridge University Press, New York).CrossrefGoogle Scholar
  • Wen CW, Koppelman FS (2001) The generalized nested logit model. Transportation Res. Part B Methodological 35(7):627–641.CrossrefGoogle Scholar
  • Westerlund T, Skrifvars H, Harjunkoski I, Pörn R (1998) An extended cutting plane method for a class of non-convex MINLP problems. Computers Chemical Engrg. 22(3):357–365.CrossrefGoogle Scholar
  • Xue Z, Song J (2007) Demand management and inventory control for substitutable products. Technical report, The Fuqua School of Business, Duke University, Durham, NC.Google Scholar
  • Zhang D (2011) An improved dynamic programming decomposition approach for network revenue management. Manufacturing Service Oper. Management 13(1):35–52.LinkGoogle Scholar
  • Zhang D, Adelman D (2009) An approximate dynamic programming approach to network revenue management with customer choice. Transportation Sci. 43(3):381–394.LinkGoogle Scholar
  • Zhang D, Lu Z (2013) Assessing the value of dynamic pricing in network revenue management. INFORMS J. Comput. 25(1):102–115.LinkGoogle Scholar
  • Zhang D, Weatherford L (2017) Dynamic pricing for network revenue management: A new approach and application in the hotel industry. INFORMS J. Comput. 29(1):18–35.LinkGoogle Scholar
  • Zhang H, Rusmevichientong P, Topaloglu H (2018) Multiproduct pricing under the generalized extreme value models with homogeneous price sensitivity parameters. Oper. Res. 66(6):1559–1570.LinkGoogle Scholar
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