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Airline strategies for aircraft size and airline frequency with changing demand and competition: A simultaneous-equations approach for traffic on the north Atlantic

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  • Pitfield, D.E.
  • Caves, R.E.
  • Quddus, M.A.

Abstract

Airport planners need to know the forecast demand on the facilities provided airside at airports. For this they need to know how airlines will deal with traffic in terms of the size of aircraft and frequency of service. In response to increasing demand, airlines may increase capacity by increasing the frequency of flights or they may choose to increase aircraft size. This may yield operating cost economies. If the airports they operate from are capacity constrained they will be limited in the extent that they can change frequency that will limit their ability to compete with the number of frequencies offered. Consequently, these airports are excluded as are major hubs as frequencies will be influenced by connecting passengers. Routes are identified on the north Atlantic that can be analysed and conclusions are suggested on the basis of three stage least-squares estimates for pooled time series-cross section data. An increase in passengers on the whole will result in a larger increase in frequency than in aircraft size but the impact of competition does not yield significant results due to the strategy of excluding certain categories of airport.

Suggested Citation

  • Pitfield, D.E. & Caves, R.E. & Quddus, M.A., 2010. "Airline strategies for aircraft size and airline frequency with changing demand and competition: A simultaneous-equations approach for traffic on the north Atlantic," Journal of Air Transport Management, Elsevier, vol. 16(3), pages 151-158.
    • Handle: RePEc:eee:jaitra:v:16:y:2010:i:3:p:151-158
    DOI: 10.1016/j.jairtraman.2009.07.008
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    References listed on IDEAS

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    1. D. E. Pitfield, 2005. "Some Speculations and Empirical Evidence on the Oligopolistic Behaviour of Competing Low-Cost Airlines," Journal of Transport Economics and Policy, University of Bath, vol. 39(3), pages 379-390, September.
    2. Jan K. Brueckner & Yimin Zhang, 2001. "A Model of Scheduling in Airline Networks: How a Hub-and-Spoke System Affects Flight Frequency, Fares and Welfare," Journal of Transport Economics and Policy, University of Bath, vol. 35(2), pages 195-222, May.
    3. Kenneth Button & Jonathan Drexler, 2005. "Recovering Costs by Increasing Market Share: An Empirical Critique of the S-Curve," Journal of Transport Economics and Policy, University of Bath, vol. 39(3), pages 391-410, September.
    4. Pitfield, David & Caves, Robert E., 2000. "Airline Strategies For Aircraft Size And Airline Frequency With Changing Demand And Competition: A Two-Stage Least Squares Analysisfor Long Haul Traffic On The North Atlantic," ERSA conference papers ersa00p500, European Regional Science Association.
    5. Wei, Wenbin & Hansen, Mark, 2005. "Impact of aircraft size and seat availability on airlines' demand and market share in duopoly markets," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 41(4), pages 315-327, July.
    6. D. E. Pitfield, 2007. "Ryanair's Impact on Airline Market Share from the London Area Airports: A Time Series Analysis," Journal of Transport Economics and Policy, University of Bath, vol. 41(1), pages 75-92, January.
    7. Mason, K.J., 2007. "Airframe manufacturers: Which has the better view of the future?," Journal of Air Transport Management, Elsevier, vol. 13(1), pages 9-15.
    8. Givoni, Moshe & Rietveld, Piet, 2010. "The environmental implications of airlines' choice of aircraft size," Journal of Air Transport Management, Elsevier, vol. 16(3), pages 159-167.
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