Evaluating Air Traffic Flow Management in a Collaborative Decision-Making Environment
Abstract
The collaborative decision-making (CDM) framework introduced into ground delay programs in the late 1990s is an integral component of FAA's traffic flow management (TFM) procedures. CDM allows FAA to act as a mediator when managing TFM programs, transferring as much decision making as possible to the individual airlines. Although this approach has been highly successful in practice, it creates a new question for the research community: How should proposed enhancements to TFM be evaluated in a CDM environment? A sequential evaluation procedure, developed in this paper, addresses this question. The procedure includes airline disruption responses and a quasi-compression operation, attempting to mimic the three-stage CDM process. To model airline disruption responses, an integer optimization model was developed to balance operational and passenger considerations in determining which flights to cancel, swap, or delay. The value of this procedure is demonstrated by analyzing an optimization-based TFM approach in the CDM environment.
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References
1. Brennan M. Airspace Flow Programs—A Fast Path to Deployment. Journal of Air Traffic Control, Vol. 49, No. 1, 2007, pp. 51–55.
2. Chang K., Howard K., Oiesen R., Shishler L., Tanino M., and Wambsganns M. Enhancements to the FAA Ground-Delay Program Under Collaborative Decision-Making. Transportation Science, Vol. 34, 2001, pp. 57–76.
3. Ball M., Hoffman R., Odoni A., and Rifkin R. A Stochastic Integer Program with Dual Network Structure and Its Application to the Ground-Holding Problem. Operations Research, Vol. 51, 2003, pp. 167–171.
4. Kotnyek B., and Richetta O. Equitable Models for the Stochastic Ground-Holding Problem Under Collaborative Decision-Making. Transportation Science, Vol. 40, 2006, pp. 133–146.
5. Richetta O., and Odoni A. Solving Optimally the Static Ground-Holding Policy Problem in Air Traffic Control. Transportation Science, Vol. 27, 1993, pp. 228–238.
6. Vossen T., and Ball M. Optimization and Mediated Bartering Models for Ground Delay Programs. Naval Research Logistics, Vol. 53, No. 1, 2005, pp. 75–90.
7. Bertsimas D., and Patterson S. The Air Traffic Flow Management Problem with Enroute Capacities. Operations Research, Vol. 46, No. 3, 1998, pp. 406–422.
8. Andreatta G., Brunetta L., and Guastalla G. From Ground Holding to Free Flight: An Exact Approach. Transportation Science, Vol. 34, 2000, pp. 394–401.
9. Bertsimas D., Lulli G., and Odoni A. The Air Traffic Flow Management Problem: An Integer Optimization Approach. Integer Programming and Combinatorial Optimization: Lecture Notes in Computer Science, Vol. 5035, 2008, pp. 34–46.
10. Barnhart C., Bertsimas D., Caramanis C., and Fearing D. Equitable and Efficient Coordination in Traffic Flow Management. Massachusetts Institute of Technology Working Paper, 2010.
11. Bureau of Transportation Statistics. TranStats. http://transtats.bts.gov/TableInfo.asp?Table_ID=236&DB_Short_Name=On-Time&Info_Only=0. Accessed Sept. 3, 2009.
12. Barnhart C., Fearing D., and Vaze V. Modeling Passenger Travel and Delays in the National Air Transportation System. Massachusetts Institute of Technology Working Paper, 2010.
13. Fearing D. The Case for Coordination: Equity, Efficiency, and Passenger Impacts in Air Traffic Flow Management. PhD thesis. Massachusetts Institute of Technology, Cambridge, 2010.
14. Metron Aviation. Flight Schedule Monitor. http://www.metronaviation.com/fsm.php. Accessed May 2009.
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Article first published online: January 1, 2011
Issue published: January 2011
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This article was published in Transportation Research Record: Journal of the Transportation Research Board.
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