Trajectory design for a cislunar CubeSat leveraging dynamical systems techniques: The Lunar IceCube mission

Bosanac Natasha; Cox Andrew D.; Howell Kathleen C.; Folta David C.

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Trajectory design for a cislunar CubeSat leveraging dynamical systems techniques: The Lunar IceCube mission

机译：利用动力学系统技术的月球CubeSat的弹道设计：月球IceCube任务

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Lunar IceCube is a 6U CubeSat that is designed to detect and observe lunar volatiles from a highly inclined orbit. This spacecraft, equipped with a low-thrust engine, is expected to be deployed from the upcoming Exploration Mission-1 vehicle. However, significant uncertainty in the deployment conditions for secondary payloads impacts both the availability and geometry of transfers that deliver the spacecraft to the lunar vicinity. A framework that leverages dynamical systems techniques is applied to a recently updated set of deployment conditions and spacecraft parameter values for the Lunar IceCube mission, demonstrating the capability for rapid trajectory design.

机译：月球冰立方是一个6U立方体卫星，旨在检测和观察来自高度倾斜轨道的月球挥发物。该航天器配备低推力发动机，预计将在即将到来的探索任务1号飞行器中进行部署。但是，次要有效载荷的部署条件存在很大的不确定性，这会影响将航天器运送到月球附近的转移的可用性和几何形状。利用动态系统技术的框架已应用于最近更新的月球冰立方任务的一组部署条件和航天器参数值，展示了快速弹道设计的能力。

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来源
《Acta astronautica》 |2018年第3期|283-296|共14页
作者
Bosanac Natasha; Cox Andrew D.; Howell Kathleen C.; Folta David C.;
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作者单位

Purdue Univ, Dept Aeronaut & Astronaut, W Lafayette, IN 47906 USA;

Purdue Univ, Dept Aeronaut & Astronaut, W Lafayette, IN 47906 USA;

Purdue Univ, Dept Aeronaut & Astronaut, W Lafayette, IN 47906 USA;

NASA, Goddard Space Flight Ctr, Greenbelt, MD 20771 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Trajectory design; CubeSats; Small satellites; Multi-body dynamics; Dynamical systems theory;

机译：弹道设计;立方体卫星;小卫星;多体动力学;动力学系统理论;

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1. Leveraging quasi-periodic orbits for trajectory design in cislunar space [J] . Brian P. McCarthy, Kathleen C. Howell Astrodynamics . 2021,第2期

机译：利用Cislunar空间中的轨迹设计准周期性轨道
2. Cislunar Explorers: Water-Propelled CubeSat to Lunar Orbit [J] . KYLE DOYLE Ad Astra . 2016,第Fall期

机译：顺月探险者：驱魔立方卫星进入月球轨道
3. Potential trajectory design for a lunar CubeSat impactor deployed from a HEPO using only a small separation delta-V [J] . Young-Joo Song, Donghun Lee, Ho Jin, Advances in space research . 2017,第2期

机译：仅使用小间距delta-V从HEPO部署的月球CubeSat撞击器的潜在轨迹设计
4. DEVELOPMENT OF TELECOMMUNICATIONS SYSTEMS AND GROUND SUPPORT FOR EM-1 INTERPLANETARY CUBESATS MISSIONS: LUNAR ICECUBE AND LUNAH-MAP [C] . Alessandra Babuscia, Krisjani Angkasa, Benjamin Malphrus, International Astronautical Congress . 2017

机译：电信系统的开发与EM-1行星期室特派团特派团的地面支持：Lunar Icecube和Lunah-Map
5. Low-thrust trajectory design and optimization of lunar south pole coverage missions. [D] . Ozimek, Martin T. 2010

机译：月球南极覆盖任务的低推力轨迹设计和优化。
6. New Vectorial Propulsion System and Trajectory Control Designs for Improved AUV Mission Autonomy [O] . Ivan Masmitja, Julian Gonzalez, Cesar Galarza, 2018

机译：新的矢量推进系统和弹道控制设计可改善AUV任务自主性
7. Mission Orbit Design of CubeSat Impactor Measuring Lunar Local [O] . Jeong-Ah Lee, Sang-Young Park, Youngkwang Kim, 2017

机译：Cubesat冲击器测量月球局部任务轨道设计
8. Trajectory Design for a Cislunar Cubesat Leveraging Dynamical Systems Techniques: The Lunar Icecube Mission. [R] . Bosanac, N., Cox, A., Howell, K. C., 2017

机译：利用动力系统技术的Cislunar Cubesat轨迹设计：月球冰块任务。

Trajectory design for a cislunar CubeSat leveraging dynamical systems techniques: The Lunar IceCube mission

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