• DocumentCode
    426634
  • Title

    Supersector experimental results proof of concept assessment

  • Author

    Grau, J.Y. ; Gawinowsky, G. ; Guichard, L. ; Guibert, S. ; Nobel, J. ; Dohy, D. ; Belhacene, K.

  • Author_Institution
    Synrjy for Eurocontrol Exp. Centre, Bretigny, France
  • Volume
    1
  • fYear
    2004
  • fDate
    24-28 Oct. 2004
  • Abstract
    The exploratory Supersector project falls within the scope of research based on the hypothesis that the current proliferation of controlled sectors had led to a too rigid use of airspace to face with medium- to long-term traffic growth. Supersector suggests a shift of paradigm from sector-division to sector-regrouping, i.e. instead of subdividing sectors to accommodate traffic growth, Supersector investigates a new control organization and practices from which traffic in large volume of airspace can be managed by teams of controllers with responsibilities no more restricted to sector-planning and radar-control but span from real-time traffic flow organization to conflict solving. In this way, it is expected that Supersector can help filling the gap between long-term predictive issues of central flow management, and short-term adaptive issues of radar-control, and thus moving from the today´s non-synchronous Air Traffic Management System to a synchronous one, from a sector-control working methods to a network and flow management one, from conflict-based control to a time-based control one. A human-in-the-loop demonstration has been realised and allowed to validate the hypothesis and to identify the pros and cons of such a synchronised ATM. Time-based ATM architecture, 4D contract of service, teamwork, trunk-structured airspace design, medium-term anticipation and layer planning working methods have been explored and results are discussed.
  • Keywords
    air traffic control; telecommunication traffic; Air Traffic Management System; Supersector project; central flow management; conflict-based control; radar-control; real-time traffic flow organization; sector-division; sector-planning; sector-regrouping; synchronised ATM; time-based ATM architecture; time-based control; traffic growth; Adaptive control; Air traffic control; Asynchronous transfer mode; Centralized control; Communication system traffic control; Contracts; Control systems; Filling; Programmable control; Teamwork;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Digital Avionics Systems Conference, 2004. DASC 04. The 23rd
  • Print_ISBN
    0-7803-8539-X
  • Type

    conf

  • DOI
    10.1109/DASC.2004.1391258
  • Filename
    1391258