俄国的太空工程和欧洲自动货运飞船(ATV)对接上国际空间站所使用的技术也可以用在共轨反卫星上。
The same technology that allows the Russian Progress or European ATV to automatically rendezvous and dock with the ISS could also be used in a co-orbital ASAT.
然而一些观察家认为,BX - 1实际上是为了测试共轨型反卫星(ASAT)攻击所需要的某些能力。
However, some observers have concluded that the BX-1 was actually a test of some of the capabilities required for a co-orbital anti-satellite (ASAT) attack.
BX - 1的发射和运行和共轨反卫星测试不相关的证据也有好几个。
There are a few elements of the BX-1 launch and operations that do not correlate to what would be expected from a co-orbital ASAT test.
利用该算法进一步考虑初始时刻反卫星武器与目标卫星的位置关系和变轨消耗能量之间的关系,同时给出了发射窗口的求解算法。
Moreover, the relation of initial launch condition and energy consumption is discussed in this paper, and the determination of launch window is given.
利用该算法进一步考虑初始时刻反卫星武器与目标卫星的位置关系和变轨消耗能量之间的关系,同时给出了发射窗口的求解算法。
Moreover, the relation of initial launch condition and energy consumption is discussed in this paper, and the determination of launch window is given.
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