Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Slot Trading Opportunities in Collaborative Ground Delay Programs

Published Online:1 Feb 2006https://doi.org/10.1287/trsc.1050.0121

References

  • Adams M., Kolitz S., Milner J., Odoni A. Evolutionary concepts for decentralized air traffic management. Air Traffic Control Quart. (1997) 4:281–306Google Scholar
  • Andreatta G., Brunetta L. Multiairport ground holding problem: A computational evaluation of exact algorithms. Oper. Res. (1993) 46:57–64LinkGoogle Scholar
  • Andreatta G., Romanin-Jacur G. Aircraft flow management under congestion. Transportation Sci. (1987) 21:249–253LinkGoogle Scholar
  • Andreatta G., Odoni A. R., Richetta O., Bianco L., Odoni A. R. Models for the ground holding problem. Large-Scale Computation and Information Processing in Air Traffic Control (1993) (Springer-Verlag, Berlin, Germany) 125–168CrossrefGoogle Scholar
  • Ball M. O., Donohue G., Hoffman K., Cramton P., Shoham Y., Steinberg R. Auctions for the safe, efficient and equitable allocation of airspace system resources. Combinatorial Auctions (2005) (MIT Press, Cambridge, MA) 507–538Google Scholar
  • Ball M. O., Hoffman R., Hall W., Muharremoglu A. Collaborative decision making in air traffic management: A preliminary assessment. (1998) . NEXTOR Technical Report RR-99-3; University of Maryland, College Park, MD. http://www.nextor.org/rep99.htmlGoogle Scholar
  • Ball M. O., Hoffman R., Odoni A., Rifkin R. Efficient solution of a stochastic ground holding problem. Oper. Res. (2003) 51:167–171LinkGoogle Scholar
  • Ball M. O., Hoffman R., Knorr D., Wetherly J., Wambsganss M. Assessing the benefits of collaborative decision making in air traffic management. Proc. 3rd USA/Europe Air Traffic Management R&D Seminar (2000) Naples, Italy(June). http://atm-seminar-2000.eurocontrol.fr/Google Scholar
  • Bertsimas D., Stock-Patterson S. The air traffic flow management problem with enroute capacities. Oper. Res. (1998) 46:406–422LinkGoogle Scholar
  • Bertsimas D., Stock-Patterson S. The traffic flow management rerouting problem in air traffic control: A dynamic network approach. Transportation Sci. (2000) 34:239–255LinkGoogle Scholar
  • Bhogadi N. (2002) . Personal communication (July)Google Scholar
  • Brennan M. Simplified substitutions—Enhancements to substitution rules and procedures during ground delay programs. Proc. AGIFORS Airline Oper. Meeting (2001) Ocho Rios, Jamaica http://www.agifors.org/studygrp/opsctl/2001/Google Scholar
  • Chang K., Howard K., Shisler L., Wambsganss M. C., Tanino M., Oiesen R. Enhancements to the FAA ground-delay program under collaborative decision making. Interfaces (2001) 31:57–76LinkGoogle Scholar
  • Hall W. D. Efficient capacity allocation in a collaborative air transportation system. (1999) . Ph.D. thesis, Massachusetts Institute of Technology, Cambridge, MAGoogle Scholar
  • Howard K. ETMS/ATMS system requirements: Slot credit substitutions (SCS), v.1.7. (2003) . Internal CDM memorandum, The John A. Volpe Res. Ctr., Cambridge, MA. http://cdm.metroaviation.com/ad/CDM-GDP_specs.htmGoogle Scholar
  • Luo S., Yu G., Yu G. Airline schedule perturbation problem: Landing and takeoff with non-splittable resource for the ground delay program. Operations Research in the Airline Industry (1998) (Kluwer Academic Publishers, Norwell, MA) 404–432CrossrefGoogle Scholar
  • Niznik T. Optimizing the airline response to ground delay programs. Proc. AGIFORS Airline Oper. Meeting (2001) Ocho Rios, Jamaica http://www.agifors.org/studygrp/opsctl/2001/Google Scholar
  • Nolan M. S.Fundamentals of Air Traffic Control (1999) (Brooks/Cole Publishing Company, Pacific Grove, CA) Google Scholar
  • Odoni A., Odoni A., Bianco L., Szego G. The flow management problem in air traffic control. Flow Control of Congested Networks (1987) (Springer-Verlag, Berlin, Germany) 269–288CrossrefGoogle Scholar
  • Richetta O. Optimal algorithms and a remarkably efficient heuristic for the ground-holding problem in air traffic control. Oper. Res. (1995) 43:758–770LinkGoogle Scholar
  • Richetta O., Odoni A. Solving optimally the static ground holding policy problem in air traffic control. Transportation Sci. (1993) 24:228–238LinkGoogle Scholar
  • Terrab M. Ground holding strategies for air traffic control. (1990) . Ph.D. thesis, Massachusetts Institute of Technology, Cambridge, MAGoogle Scholar
  • Terrab M., Odoni A. Strategic flow management for air traffic control. Oper. Res. (1993) 41:138–152LinkGoogle Scholar
  • Vasquez-Marquez A. American airlines arrival slot allocation system (ASAS). Interfaces (1991) 21:42–61LinkGoogle Scholar
  • Vossen T. Fair allocation methods in air traffic management. (2002) . Ph.D. thesis, University of Maryland, College Park, MDGoogle Scholar
  • Vossen T., Ball M. Optimization and mediated bartering models for ground delay programs. Naval Res. Logist. (2005) . ForthcomingGoogle Scholar
  • Vranas P., Bertsimas D., Odoni A. The multi-airport ground holding problem in air traffic control. Oper. Res. (1994a) 42:249–261LinkGoogle Scholar
  • Vranas P., Bertsimas D., Odoni A. Dynamic ground-holding policies for a network of airports. Transportation Sci. (1994b) 28:275–291LinkGoogle Scholar
  • Wambsganss M. Collaborative decision making through dynamic information transfer. Air Traffic Control Quart. (1996) 4:107–123CrossrefGoogle 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