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Available Issues

April 10, 2013 - June 5, 2026

Available Issues

April 10, 2013 - June 5, 2026

Customer Preference and Station Network in the London Bike-Share System

Published Online:5 Aug 2020https://doi.org/10.1287/mnsc.2020.3620

References

  • Andrews I, Gentzkow M, Shapiro JM (2017) Measuring the sensitivity of parameter estimates to estimation moments. Quart. J. Econom. 132(4):1553–1592.CrossrefGoogle Scholar
  • Ashok K, Ben-Akiva ME (2000) Alternative approaches for real-time estimation and prediction of time-dependent origin–destination flows. Transportation Sci. 34(1):21–36.LinkGoogle Scholar
  • Barcelö J, Montero L, Marqués L, Carmona C (2010) Travel time forecasting and dynamic origin-destination estimation for freeways based on Bluetooth traffic monitoring. Transportation Res. Record 2175(1):19–27.CrossrefGoogle Scholar
  • Ben-Akiva M, Bierlaire M, Burton D, Koutsopoulos HN, Mishalani R (2001) Network state estimation and prediction for real-time traffic management. Networks Spatial Econom. 1(3–4):293–318.CrossrefGoogle Scholar
  • Berry ST, Haile PA (2014) Identification in differentiated products markets using market level data. Econometrica 82(5):1749–1797.CrossrefGoogle Scholar
  • Berry S, Linton OB, Pakes A (2004) Limit theorems for estimating the parameters of differentiated product demand systems. Rev. Econom. Stud. 71(3):613–654.CrossrefGoogle Scholar
  • Berry S, Levinsohn J, Pakes A (1995) Automobile prices in market equilibrium. Econometrica 63(4):841–890.CrossrefGoogle Scholar
  • Bramoullé Y, Djebbari H, Fortin B (2009) Identification of peer effects through social networks. J. Econometrics 150(1):41–55.CrossrefGoogle Scholar
  • Bruno HA, Vilcassim NJ (2008) Research note: Structural demand estimation with varying product availability. Marketing Sci. 27(6):1126–1131.LinkGoogle Scholar
  • Buchholz N (2016) Spatial equilibrium, search frictions and efficient regulation in the taxi industry. Working paper, Princeton University, Princeton, NJ.Google Scholar
  • Conlon CT, Mortimer JH (2013) Demand estimation under incomplete product availability. Amer. Econom. J. Microeconom. 5(4):1–30.CrossrefGoogle Scholar
  • DeMaio P (2009) Bike-sharing: History, impacts, models of provision, and future. J. Public Transportation 12(4):41–56.CrossrefGoogle Scholar
  • Ellickson PB, Misra S (2008) Supermarket pricing strategies. Marketing Sci. 27(5):811–828.LinkGoogle Scholar
  • Frechette GR, Lizzeri A, Salz T (2016) Frictions in a competitive, regulated market: Evidence from taxis. Working paper, New York University, New York.Google Scholar
  • Freund D, Henderson SG, Shmoys DB (2018) Minimizing multimodular functions and allocating capacity in bike-sharing systems. Production Oper. Management 27(12):811–828.CrossrefGoogle Scholar
  • Greater London Authority (2013) The Mayor’s Vision for Cycling in London: An Olympic Legacy for All Londoners (Greater London Authority, London).Google Scholar
  • Jorge D, Correia G (2013) Carsharing systems demand estimation and defined operations: A literature review. Eur. J. Transport Infrastructure Res. 13(3):201–220.Google Scholar
  • Kabra A, Belavina E, Girotra K (2016) Bike-share systems: Accessibility and availability. Working paper, INSEAD, Fontainebleau, France.Google Scholar
  • Manchanda P, Rossi PE, Chintagunta PK (2004) Response modeling with nonrandom marketing-mix variables. J. Marketing Res. 41(4):467–478.CrossrefGoogle Scholar
  • Midgley P (2011) Bicycle-sharing schemes: Enhancing sustainable mobility in urban areas. Background Paper No. 8, United Nations Department of Economic and Social Affairs, New York.Google Scholar
  • Musalem A, Olivares M, Bradlow ET, Terwiesch C, Corsten D (2010) Structural estimation of the effect of out-of-stocks. Management Sci. 56(7):1180–1197.LinkGoogle Scholar
  • NYC Department of City Planning (2009) Bike-share: Opportunities in New York City. Report, City of New York, New York.Google Scholar
  • O’Mahony E, Shmoys DB (2015) Data analysis and optimization for (citi)bike sharing. Proc. 29th AAAI Conf. Artificial Intelligence (AAAI Press, Palo Alto, CA), 687–694.Google Scholar
  • Singhvi D, Singhvi S, Frazier PI, Henderson SG, O’Mahony E, Shmoys DB, Woodard DB (2015) Predicting bike usage for New York City’s bike sharing system. 2015 AAAI Workshop: Computational Sustainability (AAAI Press, Palo Alto, CA), 110–114.Google Scholar
  • Stock JH, Yogo M (2005) Testing for weak instruments in linear IV regression. Andrews DWK, Stock JH, eds. Identification and Inference for Econometric Models: Essays in Honor of Thomas Rothenberg (Cambridge University Press, Cambridge, UK), 80–108.CrossrefGoogle Scholar
  • Su C-L, Judd KL (2012) Constrained optimization approaches to estimation of structural models. Econometrica 80(5):2213–2230.CrossrefGoogle Scholar
  • Toole JL, Colak S, Sturt B, Alexander LP, Evsukoff A, González MC (2015) The path most traveled: Travel demand estimation using big data resources. Transportation Res. Part C: Emerging Tech. 58:162–177.CrossrefGoogle Scholar
  • Transport for London (2010) Cycling revolution London. Report, Mayor of London.Google Scholar
  • Woodcock J, Tainio M, Cheshire J, O’Brien O, Goodman A (2014) Health effects of the London bicycle sharing system: Health impact modelling study. BMJ 348:g425.CrossrefGoogle Scholar
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