第4代AURORA系统可用于中低空的有人或无人飞行器中,而增添的载荷仅为35磅(15.87千克)。
The AURORA Generation IV system can be used on a wide range of low- and medium-altitude manned or unmanned vehicles that can accommodate payloads as low as 35 pounds.
有关机构也将研究操作和安全问题,将无人驾驶飞行器与当前的空中交通控制系统整合在一起。
The agency also will investigate the operation and safetyissues associated with integrating unpiloted aircraft into today's air trafficcontrol system.
因为在提供支援时,“无人飞行系统”通常是远离冲突区域的,它们绝不会像有人飞行器那样在战场上飞进飞出。
Nor do UAS have to be rotated in and out of a war zone like manned aircraft.
相比于有人飞行器,“无人飞行系统”还拥有除了毅力以外的其他优势。
Along with persistence, UAS have other potential advantages over manned aircraft.
无人飞行系统的另一潜在优势是,其以后的设计会使其比载人飞行器更好地存活于竞争激烈的空域。
Another potential advantage for UAS is that future designs may be better able to survive in contested airspace than manned aircraft are.
介绍了无人飞行器箱式发射检测系统的软、硬件设计、数据处理、流量控制技术等。
Hard and soft ware design, data processing and flow control techniques for measuring system of unmanned air vehicle container firing are introduced.
在应用中,综述了任务规划系统在战场态势评估、无人飞行器、机器人领域的应用。
In the application part, mainly sum up the application in the fields of battle-space assessment, uninhabited aero-craft and robot.
为了优化无人驾驶航空飞行器在整个飞行过程中的空气动力特性而使机身、推进系统和升力控制面一体化的设计技术。
Design technology for integration of air vehicle fuselage, propulsion system and lifting control surfaces to optimize aerodynamic performance throughout the flight regime of an unmanned air vehicle.
无人驾驶飞行器低空遥感系统的研制与应用,开拓了三维城市建设新的技术手段。
Development and applications of the unmanned air remote sensing vehicle exploit new technological measure of three-dimensional urban construction.
无人驾驶飞行器低空遥感系统的研制与应用,开拓了三维城市建设新的技术手段。
Development and applications of the unmanned air remote sensing vehicle exploit new technological measure of three-dimensional urban construction.
应用推荐