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1.
Steven D. Howe 《Space Policy》2001,17(4):275-283
The potential benefits to humankind of space exploration are tremendous. Space is not only the final frontier but is also the next marketplace. The orbital space above Earth offers tremendous opportunities for both strategic assets and commercial development. The critical obstacle retarding the use of the space around the Earth is the lack of low cost access to orbit. Further out, the next giant leap for mankind will be the human exploration of Mars. Almost certainly within the next 30 years, a human crew will brave the isolation, the radiation, and the lack of gravity to walk on and explore the Red planet. Both of these missions will change the outlook and perspective of every human being on the planet. However, these missions are expensive and extremely difficult. Chemical propulsion has demonstrated an inability to achieve orbit cheaply and is a very high-risk option to accomplish the Mars mission. An alternative solution is to develop a high performance propulsion system. Nuclear propulsion has the potential to be such a system. The question will be whether humanity is willing to take on the challenge. 相似文献
2.
The Cluster mission of the European Space Agency (ESA) will allow, for the first time three-dimensional measurements in key regions of the Earth's magnetosphere to be carried out. The European Numerical Simulation Network (ENSN) aims at providing a theoretical support to the mission. We describe the achievements of the ENSN during its first period of activity 1991–1994, during which the network was funded by the European Union. In particular, the ENSN has set up (i) thematic Working Groups on the prime scientific goals of the mission, (ii) a code development Working Group to develop numerical simulation codes specifically adapted to studying magnetospheric boundaries and the corresponding scale mixing, and (iii) software models of Cluster instruments to test in a numerical simulation what the set of four instruments will measure. 相似文献
3.
Aiming at a 1-cm Orbit for Low Earth Orbiters: Reduced-Dynamic and Kinematic Precise Orbit Determination 总被引:1,自引:0,他引:1
The computation of high-accuracy orbits is a prerequisite for the success of Low Earth Orbiter (LEO) missions such as CHAMP,
GRACE and GOCE. The mission objectives of these satellites cannot be reached without computing orbits with an accuracy at
the few cm level. Such a level of accuracy might be achieved with the techniques of reduced-dynamic and kinematic precise
orbit determination (POD) assuming continuous Satellite-to-Satellite Tracking (SST) by the Global Positioning System (GPS).
Both techniques have reached a high level of maturity and have been successfully applied to missions in the past, for example
to TOPEX/POSEIDON (T/P), leading to (sub-)decimeter orbit accuracy. New LEO gravity missions are (to be) equipped with advanced
GPS receivers promising to provide very high quality SST observations thereby opening the possibility for computing cm-level
accuracy orbits. The computation of orbits at this accuracy level does not only require high-quality GPS receivers, but also
advanced and demanding observation preprocessing and correction algorithms. Moreover, sophisticated parameter estimation schemes
need to be adapted and extended to allow the computation of such orbits. Finally, reliable methods need to be employed for
assessing the orbit quality and providing feedback to the different processing steps in the orbit computation process.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
4.
D. Koschny V. Dhiri K. Wirth J. Zender R. Solaz R. Hoofs R. Laureijs T.-M Ho B. Davidsson G. Schwehm 《Space Science Reviews》2007,128(1-4):167-188
ESA’s Rosetta mission was launched in March 2004 and is on its way to comet 67P/Churyumov-Gerasimenko, where it is scheduled
to arrive in summer 2014. It comprises a payload of 12 scientific instruments and a Lander. All instruments are provided by
Principal Investigators, which are responsible for their operations.
As for most ESA science missions, the ground segment of the mission consists of a Mission Operations Centre (MOC) and a Science
Operations Centre (SOC). While the MOC is responsible for all spacecraft-related aspects and the final uplink of all command
timelines to the spacecraft, the scientific operations of the instruments and the collection of the data and ingestion into
the Planetary Science Archive are coordinated by the SOC. This paper focuses on the tasks of the SOC and in particular on
the methodology and constraints to convert the scientific goals of the Rosetta mission to operational timelines. 相似文献
5.
6.
对遥感卫星的地面覆盖进行了分析,提出了为满足应用要求及有效载葆地面覆盖,卫星轨道的的选择方法。文中还讨论了地面轨迹的漂移及为了满足地面覆盖的地面轨这保持问题。 相似文献
7.
人造地球卫星初轨计算的单位矢量法 总被引:5,自引:1,他引:5
本文在建立两组单位矢量系统R*,S*,φ*和ρ*,A*,h*的基础上,给出了初轨计算的新的条件方程形式以及对不等精度、不同类型的观测资料的加权处理方法,这对充分发挥高精度测距资料ρ和测速资料ρ·的作用十分有利。实测计算表明,本方法基本解决了初轨计算中轨道半长轴不易定准的困难,并具有定轨精度高、适用范围广、稳定性能好等优点,对静止卫星转移轨道入轨段超短弧段测量资料的初轨计算,作用尤为明显。 相似文献
8.
伴随卫星回收是伴星应用中的一项主要技术。航天任务需求对伴星回收问题不仅提出了最省燃料要求,而且提出了最小时间要求。本文设计了一条稳定的燃料-时间优化回收轨道。从相对运动的Hill方程出发,给出伴星回收问题描述,阐述回收轨道设计思想及稳定回收条件,提出一种有效的螺旋式回收策略,探讨参数确定方法,并对回收轨道的特点和稳定性进行分析,最后研究了燃料消耗量与回收时间及初始相位的关系。仿真结果表明,利用螺旋回收策略,可以保证伴随卫星快速、稳定回收,且能在燃料消耗量与回收时间之间寻求最佳折衷。 相似文献
9.
采用T-H方程作为椭圆轨道编队的动力学描述,推导了常值推力作用下的椭圆轨道编队的构形变化控制方法。通过合理的选择控制量的作用时刻,可达到大量节约燃料的目的。结合该构形控制方法给出了燃料均衡与燃料最优的解决方案;最后,给出的仿真算例说明了本文设计方法的有效性。 相似文献
10.