This paper mainly does research on how to use Edge Method to measure the MTF of on-orbit remote sensor.
文章主要研究采用刀刃法测量在轨遥感器的MTF。
Its size would not be its only remarkable feature; it's remote orbit would be another - a tidy trillion miles from the Sun, or more than a thousand times more distant than Pluto.
它的大小并不是唯一显著特征,与太阳的遥远轨道距离也是,几乎整整有数万亿公里远,是冥王星与太阳距离的1000多倍。
But it is much bigger and is designed to go into a lower orbit with the most powerful cameras and remote sensing instruments ever sent to a planet.
但这架飞船非常庞大,必须进入略低的轨道,并配备着前所未有的最大功率的摄像机和远程感应设备。
On the other hand, when the remote sensor runs on orbit, its performance will gradually degenerate and MTF will gradually descend too.
另一方面,随着卫星遥感器在轨运行时间的增长,其性能会逐渐退化,MTF也会逐渐下降。
Dynamic environment in launching and thermal environment on orbit affect dimension stability of space optical remote sensor, thus declining its imaging quality.
发射过程中的力学环境和在轨运行时的热环境,影响航天光学遥感器的尺寸稳定性,进而影响成像质量。
It is used as a target for 10 calibrating and testing 11 remote sensing systems on satellites in orbit.
它被用作轨道上的卫星校准和测试远程感应系统的目标。
Flight path data was loaded on spot, and the flight orbit was revised in real time, remote measurement and control signal was sent out.
现场装定飞行模式航迹数据,实时修正飞行轨迹,定时发送遥测、控制信号。
Flight path data was loaded on spot, and the flight orbit was revised in real time, remote measurement and control signal was sent out.
现场装定飞行模式航迹数据,实时修正飞行轨迹,定时发送遥测、控制信号。
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