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Orbit Determination of Spacecraft in Earth-Moon L1 and L2 Libration Point Orbits.

机译：地月L1和L2振动点轨道中航天器的轨道确定。

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The ARTEMIS mission, part of the THEMIS extended mission, is the first to fly spacecraft in the Earth-Moon Lissajous regions. In 2009, two of the five THEMIS spacecraft were redeployed from Earth-centered orbits to arrive in Earth-Moon Lissajous orbits in late 2010. Starting in August 2010, the ARTEMIS P1 spacecraft executed numerous stationkeeping maneuvers, initially maintaining a lunar L2 Lissajous orbit before transitioning into a lunar L1 orbit. The ARTEMIS P2 spacecraft entered a L1 Lissajous orbit in October 2010. In April 2011, both ARTEMIS spacecraft will suspend Lissajous stationkeeping and will be maneuvered into lunar orbits. The success of the ARTEMIS mission has allowed the science team to gather unprecedented magnetospheric measurements in the lunar Lissajous regions. In order to effectively perform lunar Lissajous stationkeeping maneuvers, the ARTEMIS operations team has provided orbit determination solutions with typical accuracies on the order of 0.1 km in position and 0.1 cm/s in velocity. The ARTEMIS team utilizes the Goddard Trajectory Determination System (GTDS), using a batch least squares method, to process range and Doppler tracking measurements from the NASA Deep Space Network (DSN), Berkeley Ground Station (BGS), Merritt Island (MILA) station, and United Space Network (USN). The team has also investigated processing of the same tracking data measurements using the Orbit Determination Tool Kit (ODTK) software, which uses an extended Kalman filter and recursive smoother to estimate the orbit. The orbit determination results from each of these methods will be presented and we will discuss the advantages and disadvantages associated with using each method in the lunar Lissajous regions. Orbit determination accuracy is dependent on both the quality and quantity of tracking measurements, fidelity of the orbit force models, and the estimation techniques used. Prior to Lissajous operations, the team determined the appropriate quantity of tracking measurements that would be needed to meet the required orbit determination accuracies.

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作者
Woodard, M.; Cosgrove, D.; Morinelli, P.; Marchese, J.; Owens, B.; Folta, D.;
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年度 2011
页码 1-18
总页数 18
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Libration; Lunar orbits; Orbit determination; Spacecraft maneuvers; Stationkeeping; Orbit calculation; Orbital mechanics; Spacecraft trajectories; Orbital position estimation; Lissajous figures; Satellite orbits; Deep space network; Earth orbits; Goddard trajectory determination system; Gravitational effects; Kalman filters; Least squares method; Runge-kutta method;

机译：振动;月球轨道;轨道确定;航天器机动;驻地;轨道计算;轨道力学;航天器轨迹;轨道位置估计;利萨如图;卫星轨道;深空网络;地球轨道;戈达德轨迹确定系统;引力效应;卡尔曼滤波器;最小二乘法;龙格 - 库塔法;

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2. The use of vertical instability of L1 and L2 planar Lyapunov orbits for transfers from near rectilinear halo orbits to planar distant retrograde orbits in the Earth-Moon system [J] . Oshima Kenta Celestial Mechanics and Dynamical Astronomy: An international journal of space dynamics . 2019,第3期

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3. Orbital Motions of a Solar Sail Around the L2 Earth-Moon Libration Point [J] . Shengping Gong, Junfeng Li, Jules Simo Journal of guidance, control, and dynamics . 2014,第4期

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4. ORBIT DETERMINATION OF SPACECRAFT IN EARTH-MOON L1 AND L2 LIBRATION POINT ORBITS [C] . Mark Woodard, Daniel Cosgrove, Patrick Morinelli, AAS/AIAA astrodynamics specialist conference . 2012

机译：L1和L2沸腾点轨道上的航天器定轨
5. Spacecraft Maneuvering at the Sun/Earth-Moon L2 Libration Point. [D] . Shahid, Kamran. 2010

机译：在太阳/地球-月亮L2交汇点进行的航天器操纵。
6. Conjunctival cysts in anophthalmic orbits. [O] . T J Smit, L Koornneef, F W Zonneveld 1991

机译：眼球眼球结膜囊肿。
7. Orbit determination of CE-5T1 in Earth-Moon L2 libration point orbit with ground tracking data [O] . Yong HUANG, PeiJia LI, Min FAN, 2018

机译：地球跟踪数据轨道在地球L2自由点轨道中的CE-5T1轨道确定

Orbit Determination of Spacecraft in Earth-Moon L1 and L2 Libration Point Orbits.

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