Help
Cart
Skip main navigation

Available Issues

April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Optimal Pricing Under Diffusion-Choice Models

Published Online:6 Jan 2020https://doi.org/10.1287/opre.2019.1947

References

  • Amazon (2017) Amazon hot new releases. Accessed June 13, 2017, https://www.amazon.com/gp/new-releases/books/18/ref=zg_bsnr_nav_b_1_b.Google Scholar
  • Bass F (1969) A new product growth model for consumer durables. Management Sci. 15(5):215–227.LinkGoogle Scholar
  • Bass F (1980) The relationship between diffusion rates, experience curves, and demand elasticities for consumer durable technological innovations. J. Bus. 53(3):S51–S67.CrossrefGoogle Scholar
  • Bass F, Krishnan T, Jain D (1994) Why the Bass model fits without decision variables. Marketing Sci. 13(3):203–223.LinkGoogle Scholar
  • Bayus BL (1992) The dynamic pricing of next generation consumer durables. Marketing Sci. 11(3):251–265.LinkGoogle Scholar
  • Chen C, Watanabe C (2006) Diffusion, substitution and competition dynamism inside the ICT market: The case of Japan. Tech. Forecasting Soc. Change 73(6):731–759.CrossrefGoogle Scholar
  • Davis J, Gallego G, Topaloglu H (2014) Assortment optimization under variants of the nested logit model. Oper. Res. 62(2):250–273.LinkGoogle Scholar
  • Dolan RJ, Jeuland AP (1981) Experience curves and dynamic demand models: Implications for optimal pricing strategies. J. Marketing 45(1):52–62.CrossrefGoogle 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
  • Du C, Cooper WL, Wang Z (2016) Optimal pricing for a multinomial logit choice model with network effects. Oper. Res. 64(2):441–455.LinkGoogle Scholar
  • Entwistle S (2012) HTC, Apple & Samsung top smartphone retail price decline comparison. Accessed July 28, 2017, https://www.strategyanalytics.com/strategy-analytics/blogs/devices/pricetrax/pricetrax/2012/09/27/htc-apple-samsung-top-smartphone-retail-price-decline-comparison.Google Scholar
  • Entwistle S (2015) Apple and HTC avoid major retail price erosion. Accessed July 28, 2017, https://www.strategyanalytics.com/strategy-analytics/blogs/devices/pricetrax/pricetrax/2015/12/21/apple-and-htc-avoid-major-retail-price-erosion---unlike-other-flagship-smartphones-complimentaryreport-offer#.WfoTU4hrw2w.Google Scholar
  • Gallego G, Wang R (2014) Multi-product price optimization and competition under the nested logit model with product-differentiated price sensitivities. Oper. Res. 62(2):450–461.LinkGoogle Scholar
  • Hanson W, Martin K (1996) Optimizing multinomial logit profit functions. Management Sci. 42(7):992–1003.LinkGoogle Scholar
  • Horsky D (1990) A diffusion model incorporating product benefits, price, income and information. Marketing Sci. 9(4):342–365.LinkGoogle Scholar
  • Huh WT, Li H (2015) Technical note. Pricing under the nested attraction model with a multi-stage choice structure. Oper. Res. 63(4):840–850.LinkGoogle Scholar
  • Jain DC, Rao RC (1990) Effect of price on the demand for durables:modeling, estimation, and findings. J. Bus. Econom. Statist. 8(2):163–170.CrossrefGoogle Scholar
  • Jun DB, Park YS (1999) A choice-based diffusion model for multiple generations of products. Tech. Forecasting Soc. Change 61(1):45–58.CrossrefGoogle Scholar
  • Kalish S (1983) Monopolist pricing with dynamic demand and production cost. Marketing Sci. 2(2):135–159.LinkGoogle Scholar
  • Kamakura W, Balasubramanian S (1988) Long-term view of the diffusion of durables: A study of the role of price and adoption influence process via tests of nested models. Internat. J. Res. Marketing 5(1):1–13.CrossrefGoogle Scholar
  • Kim N, Chang D, Shocker A (2000) Modeling inter-category dynamics for a growing information technology industry. Management Sci. 46(4):496–512.LinkGoogle Scholar
  • Kim W-J, Lee J-D, Kim T-Y (2005) Demand forecasting for multigenerational products combining discrete choice and dynamics of diffusion under technological trajectories. Tech. Forecasting Soc. Change 72(7):825–849.CrossrefGoogle Scholar
  • Krishnan TV, Bass FM, Jain DC (1999) Optimal pricing strategy for new products. Management Sci. 45(12):1650–1663.LinkGoogle Scholar
  • Lee C-Y, Lee J-D, Kim Y (2008) Demand forecasting for new technology with a short history in a competitive environment: The case of the home networking market in South Korea. Tech. Forecasting Soc. Change 75(1):91–106.CrossrefGoogle Scholar
  • Lee J, Cho Y, Lee J-D, Lee C-Y (2006) Forecasting future demand for large-screen television sets using conjoint analysis with diffusion model. Tech. Forecasting Soc. Change 73(4):362–376.CrossrefGoogle Scholar
  • Li G, Rusmevichientong P, Topaloglu H (2015) The d-level nested logit model: Assortment and price optimization problems. Oper. Res. 63(2):325–342.LinkGoogle 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
  • Li H, Huh WT (2012) Optimal pricing for a short life-cycle product when customer price-sensitivity varies over time. Naval Res. Logist. 59(7):552–576.CrossrefGoogle Scholar
  • Li H, Webster S (2017) Optimal pricing of correlated product options under the paired combinatorial logit model. Oper. Res. 65(5):1215–1230.LinkGoogle Scholar
  • Li H, Armbruster D, Kempf KG (2013) A population-growth model for multiple generations of technology products. Manufacturing Service Oper. Management 15(3):343–360.LinkGoogle Scholar
  • Mahajan V, Muller E (1996) Timing, diffusion, and substitution of successive generations of technological innovations: The IBM mainframe case. Tech. Forecasting Soc. Change 51(2):109–132.CrossrefGoogle Scholar
  • Maling P (2012) NEW: Smartphone price slide. Accessed July 28, 2017, https://www.strategyanalytics.com.Google Scholar
  • Mansfield E (1961) Technical change and the rate of imitation. Econometrica 29(4):741–766.CrossrefGoogle Scholar
  • Meade N, Islam T (2006) Modelling and forecasting the diffusion of innovation: A 25-year review. Internat. J. Forecasting 22(3):519–545.CrossrefGoogle Scholar
  • Melser D, Syed I (2007) Life cycle pricing and the measurement of inflation. Working Paper No. 16722, University Library of Munich, Munich, Germany.Google Scholar
  • Miyao T, Shapiro P (1981) Discrete choice and variable returns to scale. Internat. Econom. Rev. 22(2):257–273.CrossrefGoogle Scholar
  • Norton J, Bass F (1987) A diffusion theory model of adoption and substitution for successive generations of high-technology products. Management Sci. 33(9):1069–1086.LinkGoogle Scholar
  • Oren SS, Schwartz RG (1988) Diffusion of new products in risk-sensitive markets. J. Forecasting 7(4):273–287.CrossrefGoogle Scholar
  • Peres R, Muller E, Mahajan V (2010) Innovation diffusion and new product growth models: A critical review and research directions. Internat. J. Res. Marketing 27(2):91–106.CrossrefGoogle Scholar
  • PriceBeam (2017) Life cycle pricing: Capturing value throughout the PLC. Accessed July 20, 2017, https://blog.pricebeam.com/life-cycle-pricing-capturing-value-throughout-the-plc.Google Scholar
  • Rayfield W, Rusmevichientong P, Topaloglu H (2015) Approximation methods for pricing problems under the nested logit model with price bounds. INFORMS J. Comput. 27(2):335–357.LinkGoogle Scholar
  • Robinson B, Lakhani C (1975) Dynamic pricing models for new product planning. Management Sci. 21(10):1113–1122.LinkGoogle Scholar
  • Shen W, Duenyas I, Kapuscinski R (2014) Optimal pricing, production, and inventory for new product diffusion under supply constraints. Manufacturing Service Oper. Management 16(1):28–45.LinkGoogle Scholar
  • Song J-S, Xue Z (2007) Demand management and inventory control for substitutable products. Working paper, Duke University, Durham, NC.Google Scholar
  • Su X (2008) Bounded rationality in newsvendor models. Manufacturing Service Oper. Management 10(4):566–589.LinkGoogle Scholar
  • Wang R, Sahin O (2017) The impact of consumer search cost on assortment planning and pricing. Management Sci. 64(8):3649–3666LinkGoogle Scholar
  • Wang R, Wang Z (2016) Consumer choice models with endogenous network effects. Management Sci. 63(11):3944–3960.LinkGoogle Scholar
  • Weerahandi S, Dalal SR (1992) A choice-based approach to the diffusion of a service: Forecasting fax penetration by market segments. Marketing Sci. 11(1):39–53.LinkGoogle Scholar
  • Zhang H, Rusmevichientong P, Topaloglu H (2018) Technical note—Multiproduct pricing under the generalized extreme value models with homogeneous price sensitivity parameters. Oper. Res. 66(6):1559–1570.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