In deep space exploration mission, the navigation scheme of the cruise phase is the key technology to research.
星际巡航段导航方案设计是深空探测任务中的重要组成部分。
Optical autonomous navigation will be used widely in the deep space exploration in the future.
光学自主导航方法将成为未来深空探测广泛应用的导航方式。
The deep space autonomous navigation and control is a key technique for the successful implementation of deep space exploration.
深空探测自主导航与控制技术是深空探测任务成功实施的关键。
With earth-moon transfer trajectory taken into account, this paper gives the deep space autonomous optical navigation algorithm based on the information of Earth-Moon.
论文的主要研究内容包括:针对奔月轨道段任务,给出了基于地月信息的自主光学导航方法。
The navigation system based on binocular vision technique does not depend on the measure distance from the sensor onboard, and is applied widely in the field of deep space exploration.
采用双目视觉技术的导航系统具有不依靠测距信息等优点,因此在深空探测领域具有广泛的应用前景。
An optical signature simulator was proposed and developed for simulations and ground experiments of optical-based autonomous navigation sensors for deep space exploration.
提出并实现了一种应用于深空探测自主光学导航地面仿真实验的光学信号模拟器。
Two clusters of formation flying satellites with a relative angle on geosynchronous earth orbit were used to construct a space-based continuous navigation system for deep space exploration.
介绍了目前各国应用的多种地基和天基空间目标探测与识别系统,并对各系统的性能进行了详细的分析和总结。
Two clusters of formation flying satellites with a relative angle on geosynchronous earth orbit were used to construct a space-based continuous navigation system for deep space exploration.
介绍了目前各国应用的多种地基和天基空间目标探测与识别系统,并对各系统的性能进行了详细的分析和总结。
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