OF DISTRIBUTED AIR / GROUND TRAFFIC MANAGEMENT

Distributed Air/Ground Traffic Management (DAGTM) is a concept of future air traffic operations that proposes to distribute information, decision-making authority, and responsibility among flight crews, the air traffic service provider, and aeronautical operational control organizations. This paper provides an overview and status of DAG-TM research at NASA Langley Research Center and the National Aerospace Laboratory of The Netherlands. Specific objectives of the research are to evaluate the technical and operational feasibility of the autonomous airborne component of DAG-TM, which is founded on the operational paradigm of free flight. The paper includes an overview of research approaches, the airborne technologies under development, and a summary of experimental investigations and findings to date. Although research is not yet complete, these findings indicate that free flight is feasible and will significantly enhance system capacity and safety. While free flight cannot alone resolve the complex issues faced by those modernizing the global airspace, it should be considered an essential part of a comprehensive air traffic management modernization activity.

[1]  R.N.H.W. van Gent,et al.  CONCEPTUAL DESIGN OF FREE FLIGHT WITH AIRBORNE SEPARATION ASSURANCE , 1998 .

[2]  Christopher D. Wickens,et al.  Flight to the Future: Human Factors in Air Traffic Control Edited by Christopher D. Wickens, Anne S. Mavor, & James P. McGee 1997, 368 pages, $44.95. Washington, DC: National Academy Press ISBN 0-309-05637-3 , 1997 .

[3]  David J. Wing,et al.  DEVELOPMENT OF A PROTOTYPE AIRBORNE CONFLICT DETECTION AND RESOLUTION SIMULATION CAPABILITY , 2002 .

[4]  M. S. Eby,et al.  Free flight separation assurance using distributed algorithms , 1999, 1999 IEEE Aerospace Conference. Proceedings (Cat. No.99TH8403).

[5]  M. S. Eby,et al.  A self-organizational approach for resolving air traffic conflicts , 1995 .

[6]  David H. Williams,et al.  Jet transport flight operations using cockpit display of traffic information during instrument meteorological conditions: Simulation evaluation , 1986 .

[7]  Robert A. Vivona,et al.  A Flight Deck Decision Support Tool for Autonomous Airborne Operations , 2002 .

[8]  Jacco M. Hoekstra,et al.  Designing for safety: the 'free flight' air traffic management concept , 2002, Reliab. Eng. Syst. Saf..

[9]  D. H. Williams Time-based self-spacing techniques using cockpit display of traffic information during approach to landing in a terminal area vectoring environment , 1983 .

[10]  J Wing David,et al.  Airborne Use of Traffic Intent Information in a Distributed Air-Ground Traffic Management Concept: Experiment Design and Preliminary Results , 2001 .

[11]  Christopher D. Wickens,et al.  The Future of Air Traffic Control: Human Operators and Automation , 1998 .

[12]  Terence S. Abbott Speed Control Law for Precision Terminal Area In-Trail Self Spacing , 2002 .

[13]  Bryan E. Barmore,et al.  Use of Traffic Intent Information by Autonomous Aircraft in Constrained Operations , 2002 .