地表地图交通意图显示和网络中心数据链通信NextGen

K. Shelton, L. Prinzel, D.R. Jones, A. Allamandola, J. Arthur, R. E. Bailey
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引用次数: 4

摘要

到2025年,美国的空中交通预计将增加三倍,可能会使目前的空中交通管理系统不堪重负,而该系统可能无法适应这种增长。为了应对这一挑战,为美国航空运营提出了一个革命性的新概念,称为下一代航空运输系统或“NextGen”。NextGen的许多关键功能正在被确定,包括数据链通信的使用。由于NextGen代表了一种完全不同的空中交通管理方法,要求飞行甲板的任务、角色和责任发生巨大转变,因此,为了确保安全、可持续的航空运输系统,必须克服许多研究问题和挑战。飞行甲板显示和乘员-车辆交互概念正在开发中,以主动调查和克服潜在的技术和安全障碍,否则可能会限制NextGen的全面实现。该论文描述了在美国国家航空航天局(NASA)兰利研究中心进行的仿真研究,在设想的基于四维轨迹(4DT)和等效视觉(EV)的地面操作中检查数据链通信和交通意图数据。总体而言,研究结果表明,控制器先导数据链通信(CPDLC)使用所有间隙的强制先导回读,显著增强了4DT和EV地面操作的态势感知。在地面地图上显示的图形交通状态和意图信息的描述进一步增强了非标称检测和飞行员安全和意识的定性报告。
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Surface map traffic intent displays and net-centric datalink communications for NextGen
By 2025, U.S. air traffic is predicted to increase three fold and may strain the current air traffic management system, which may not be able to accommodate this growth. In response to this challenge, a revolutionary new concept has been proposed for U.S. aviation operations, termed the Next Generation Air Transportation System or ¿NextGen¿. Many key capabilities are being identified to enable NextGen, including the use of data-link communications. Because NextGen represents a radically different approach to air traffic management and requires a dramatic shift in the tasks, roles, and responsibilities for the flight deck, there are numerous research issues and challenges that must be overcome to ensure a safe, sustainable air transportation system. Flight deck display and crew-vehicle interaction concepts are being developed that proactively investigate and overcome potential technology and safety barriers that might otherwise constrain the full realization of NextGen. The paper describes simulation research, conducted at National Aeronautics and Space Administration (NASA) Langley Research Center, examining datalink communications and traffic intent data during envisioned four-dimensional trajectory (4DT)-based and equivalent visual (EV) surface operations. Overall, the results suggest that controller pilot datalink communications (CPDLC) with the use of mandatory pilot read-back of all clearances significantly enhanced situation awareness for 4DT and EV surface operations. The depiction of graphical traffic state and intent information on the surface map display further enhanced off-nominal detection and pilot qualitative reports of safety and awareness.
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