AUTOFLY-Aid Project aims to develop and demonstrate novel automation support algorithms and tools to the flight crew for flight critical collision avoidance using “dynamic 4D trajectory management”. The automation support system is envisioned to improve the primary shortcomings of TCAS, and to aid the pilot through add-on avionics/head-up displays and reality augmentation devices in dynamically evolving collision avoidance scenarios. The main theoretical innovative and novel concepts to be developed by AUTOFLY-Aid project are a) design and development of the mathematical models of the full composite airspace picture from the flight deck’s perspective, as seen/measured/informed by the aircraft flying in SESAR 2020, b) design and development of a dynamic trajectory planning algorithm that can generate at real-time (on the order of seconds) flyable (i.e. dynamically and performance-wise feasible) alternative trajectories across the evolving stochastic composite airspace picture (which includes new conflicts, blunder risks, terrain and weather limitations) and c) development and testing of the Collision Avoidance Automation Support System on a Boeing 737 NG FNPT II Flight Simulator with synthetic vision and reality augmentation while providing the flight crew with quantified and visual understanding of collision risks in terms of time and directions and countermeasures.
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机译:AUTOFLY-Aid项目旨在为飞行机组开发和演示新颖的自动化支持算法和工具,以使用“动态4D轨迹管理”避免飞行关键碰撞。可以设想使用自动化支持系统来改善TCAS的主要缺点,并在动态演变的避撞场景中通过附加的航空电子设备/平视显示器和现实增强设备来帮助飞行员。 AUTOFLY-Aid项目将要开发的主要理论创新和新颖概念是:a)从驾驶舱的角度设计和开发全复合空域图片的数学模型,如在SESAR 2020中飞行的飞机所见/所测量/所知b)动态轨迹规划算法的设计和开发,该算法可以在不断发展的随机复合空域图中(包括新的冲突)实时(以秒为单位)生成可飞行(即在动态和性能上可行)的可替代轨迹,失误风险,地形和天气限制),以及c)在具有合成视觉和现实增强功能的波音737 NG FNPT II飞行模拟器上开发和测试防撞自动化支持系统,同时为飞行机组人员提供碰撞风险的定量和视觉理解在时间,方向和对策方面。
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