澳洲天文学作业代写 黑豹太空船

Cis月球拖船系统或黑豹太空船是一种UAV类型车辆。每次执行任务前,“黑豹”号宇宙飞船将通过顺月空间的入口对接。一旦运载火箭准备好进行操作,航天器将从入口分离进入顺月球轨道。“黑豹”将使用一系列由航天飞机侧面的阀门控制的加压冷气体推进器来改变飞行器的轨道,使其接近月球低轨道。一旦进入低月球轨道飞行器将稳定,如果需要的话,黑豹将做一个简短的引擎点火,以稳定绕月轨道。黑豹拖船系统的顶部有门,类似于美国宇航局的太空运输系统或航天飞机。这些大门将打开,以释放不同的有效载荷,主要使用一个自主月球着陆器运送商业资产和材料等到月球表面。航天器将进行最低能量转移轨道,也被称为homman转移轨道到顺月球空间。这个轨道将需要很少的德尔塔-v(加速度)使用更少的燃料消耗。航天器将利用顺月球空间的自然拉格朗日点停车,直到网关在适当的时间内移动到允许从拉格朗日点到网关的最小距离的位置。这样做可以节省燃料。拖船导航系统将纳入计算机控制系统,将使用imu,并将根据网关的位置进行校准。同样,月球着陆器的导航系统将根据拖船的imu位置进行校准。这些系统彼此同步,并将进行通信,因此将能够执行精确和优化的位置和轨道路径的计算,如必要的[5]。然而,gps的使用需要绕月的gps卫星。

澳洲天文学作业代写 黑豹太空船

The Cis Lunar tug system or the Dark Panther spacecraft is a UAV type vehicle. Before each mission the Dark Panther spacecraft will be docked via gateway in Cis lunar space. Once vehicle is ready to conduct an operation spacecraft will separate from the gateway into cis lunar orbit. The Dark Panther will use a series of pressurized cold gas thrusters controlled by a valve on the side of spacecraft to change vehicles trajectory towards low lunar orbit. Once in low lunar orbit vehicle will stabilize if needed and the Dark Panther will do a brief engine fire to stabilize orbit around the moon. The Dark Panther tug system has doors at top of vehicle similar to NASA’S space transport system or the space shuttle. These doors will open to release different payloads mainly using an autonomous lunar lander to deliver commercial assets and materials etc to the moon’s surface. The spacecraft will then conduct a minimum energy transfer orbit which is also referred to as the homman transfer orbit into cis lunar space. This orbit will require very little delta-v (acceleration) using less fuel consumption. The spacecraft will utilize natural LaGrange points in cis lunar space to park until the gateway moves in an appropriate amount of time to a position that will allow minimum distance of travel from the LaGrange point to the gateway. Doing so will conserve fuel.The tug navigation system which would be integrated into the computer control will involve the use of imu and will be calibrated to the location of the gateway. Likewise, the navigation system of the lander on the moon will be calibrated with respect to the imu location of the tug. These systems that are synced to each other and will communicate will thus be able to perform accurate and optimized calculation of location and orbital paths, as necessary [5]. However, use of a gps would require gps satellite(s) around the moon.

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