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NASA NTRS · Accepted Manuscript (Version with final changes)
Tactical Separation and Safety Alerting System for Terminal Airspace
Attribution
This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Ames Research Center.
Abstract
Verbatim from NASA NTRS. Not paraphrased, not summarized.
Provision of tactical alerts to aid air traffic controllers in providing separation assurance in terminal airspace is hindered by the complexity of the airspace, its operations, and flight procedures. A prototype automation system is studied that provides controllers with both separation and safety alerts based on or derived from the separation standard for terminal airspace. The system models flight trajectories heuristically, with use of merged intent information from readily available sources: area navigation departure procedures, flight-plan routes, and arrival nominal interior routes used in terminal automation systems. Flight vertical intent is modeled according to standard procedural restrictions except when superseded by controller-issued altitude clearances. Importantly, flight trajectories are modeled for all aircraft, including those conducting visual approaches. New safety-alert thresholds for aircraft conducting visual approaches are studied. Performance of the system is evaluated through fast-time playback of recorded air traffic data from high-fidelity Human-In-The-Loop simulations and real-world operations in two Terminal Radar Approach Control facilities. The prototype system is found to produce a false-alert rate of 8% for separation alerts. The number and validity of safety alerts are studied by comparing with the current Conflict Alert system, showing that the false alerts of Conflict Alert are at 85% and they are avoided in the prototype system.
Author
- Huabin Tang Ames Research Center
Keywords
- Air Traffic Management
- Conflict Detection
- Terminal Airspace
Citation: Huabin Tang (2020). Tactical Separation and Safety Alerting System for Terminal Airspace. Ames Research Center. NASA NTRS ID 20205006630. https://ntrs.nasa.gov/citations/20205006630 ↗