Precise maintenance of formation configuration is a key technique for the application of distributed satellite systems.
编队构形精确保持控制是实现分布式卫星系统的关键技术之一。
The sensors provided target information via ground and satellite links to GMD\'s dual-node, distributed fire control system, located at Fort Greely, Alaska, and in Colorado Springs, Colo.
这些提供目标信息的传感器与陆地和卫星连接到GMD的两个结点并分配火控系统,这两个结点分别位于阿拉斯加的Fort Greely和科罗拉多州的ColoradoSprings。
Satellite beam synchronization design strategy is key design issue of distributed spaceborne radar system design.
波束同步设计是星载分布式雷达系统总体设计的重要问题。
Distributed SAR satellite one is a complex and antenna beam synchronization is a prerequisition for interferometry SAR.
分布式SAR是一个复杂的协同工作编队多卫星系统,波束同步是实现干涉SAR的前提。
Basic design constraints of the distributed small satellite based GMTI radar are derived from the clutter rank.
最后从杂波自由度得到分布式小卫星雷达实现地面运动目标指示的基本设计约束条件。
To the superiority of multibaseline interferometry for master satellite and distributed small satellite SAR system, in this paper, a method of multibaseline interferometry is proposed.
针对主星带小卫星分布式SAR系统进行多基线干涉测高的优越性,本文提出了一种多基线干涉测高方法。
High precision inter-satellite baseline measurement is one of the most important issues for distributed small satellite SAR (DSS-SAR).
星间基线的高精度测量是分布式小卫星合成孔径雷达(SAR)的重点问题之一。
They also make TV accessible to people who live far away from cities, and satellite dishes can often be seen distributed throughout the countryside and remote areas.
他们也使远离城市的人们可以收看电视,在农村和边远地区可以看到卫星天线。
Compared to single-satellite radar, a great power-aperture product with longer detection range can be achieved by distributed space-based radars.
分布式星载雷达突破了单星雷达受功率孔径积的限制,具有更远的探测距离;
The satellite-to-satellite range and time difference measurement were necessary to distributed spacecraft and formation flying systems.
编队飞行卫星间的距离和时间差测量是实现分布式航天器完成特定任务的重要基础。
The satellite-to-satellite range and time difference measurement were necessary to distributed spacecraft and formation flying systems.
编队飞行卫星间的距离和时间差测量是实现分布式航天器完成特定任务的重要基础。
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