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Visual Interface for Time-Based Separation in Approach Air Traffic Control

分离(统计) 接口(物质) 计算机科学 空中交通管制 控制(管理) 实时计算 人工智能 操作系统 工程类 机器学习 航空航天工程 气泡 最大气泡压力法
作者
Mats Dirkzwager,Ferdinand Dijkstra,Clark Borst,M. M. van Paassen,Max Mulder
出处
期刊:Journal of air transportation [American Institute of Aeronautics and Astronautics]
卷期号:: 1-16
标识
DOI:10.2514/1.d0448
摘要

On final approach, an approach controller is responsible for separating aircraft lining up on the instrument landing system. In an attempt to increase traffic throughput, especially in strong headwind conditions, European regulation advises all European airports to move from distance-based to time-based separation. This effectively changes the controller’s task from a distance-based to a time-based problem. Further complications arise because of the European recategorization of aircraft types initiative, and experts fear that the gains foreseen with time-based separation will not be realized. This paper presents a visual tool integrated into the radar screen to assist controllers in performing time-based separation, the ideal turn-in point (ITIP) display. To assist controllers in selecting optimal approach strategies, starting from the moment aircraft enter the terminal control area, the display shows the possibilities and restrictions in the system rather than giving (restricting) advisories. A proof-of-concept experiment was performed with people knowledgeable in air traffic control ([Formula: see text]) and compared the ITIP to a current industry state-of-the-art display designed by U.K.’s National Air Traffic Services in scenarios of varying difficulty. Results show that with the ITIP tool, efficiency improved with similar or higher levels of safety and similar or lower workload. These promising results justify testing the interface with professional air traffic controllers. Future work aims at reducing clutter, increasing simulation fidelity, and increasing the level of support in complex traffic situations.

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