论文信息 - COMMON TRAJECTORY PREDICTION CAPABILITY FOR DECISION SUPPORT TOOLS

COMMON TRAJECTORY PREDICTION CAPABILITY FOR DECISION SUPPORT TOOLS

Trajectory prediction capabilities are an essential building block for most if not all Air Traffic Management Decision Support Tools (DSTs). DST applications range from en route to terminal operations with advisories ranging from passive flow suggestions to active clearance/instructions. Many past DSTs have been fielded with their own unique trajectory prediction capability. The objective of this paper is to identify significant performance factors and design considerations for developing a Common Trajectory Prediction Capability. A system engineering approach is used to resolve key design issues and tradeoffs such as the balance between prediction accuracy and computational speed for a variety of DST applications. Controller intent uncertainty, the major source of prediction error, is mitigated by the control advisories of advanced DSTs that close the control loop. Key aspects of a common trajectory prediction module are presented including an approach to dynamically adapt the performance to support a range of DST applications. The characteristics of different aircraft performance models, the flight path integration logic and software implementation issues are also discussed.

Steven M. Green | Sip Swierstra | S. Green | S. Swierstra

[1] Yiyuan Zhao,et al. Trajectory Synthesis for Air Traffic Automation , 1997 .

[2] Richard Coppenbarger. En route climb trajectory prediction enhancement using airline flight-planning information , 1999 .

[3] Tom G. Reynolds,et al. Conformance monitoring approaches in current and future air traffic control environments , 2002, Proceedings. The 21st Digital Avionics Systems Conference.

[4] Heinz Erzberger. Design principles and algorithms for automated air traffic management , 1995 .

[5] Douglas R. Isaacson,et al. Conflict Detection and Resolution In the Presence of Prediction Error , 1997 .

[6] S. Kauppinen,et al. European medium-term conflict detection field trials [ATC] , 2002, Proceedings. The 21st Digital Avionics Systems Conference.

[7] Robert A. Vivona,et al. Field Evaluation of Descent Advisor Trajectory Prediction Accuracy for En-route Clearance Advisories , 1998 .

[8] C. Wanke. Using air-ground data link and operator-provided planning data to improve ATM decision support system performance , 1997, 16th DASC. AIAA/IEEE Digital Avionics Systems Conference. Reflections to the Future. Proceedings.

[9] André Benoît,et al. Ground-Based 4-D Guidance of Flights in Strong Winds , 1990 .

[10] Yaghoob Ebrahimi,et al. CTAS PERFORMANCE MODEL VALIDATION , 2000 .

[11] S. A. N. Magill. ON THE VERTICAL SPEEDS OF AIRWAYS TRAFFIC. , 1996 .