Hybrid Control for Autonomous Spacecraft Rendezvous Proximity Operations and Docking

机译：自治航天器的混合控制Rendezvous接近操作和对接

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A hybrid control methodology is presented for autonomous rendezvous, proximity operations and docking of a pair of spacecraft. For the theoretical development of the control algorithms, the dynamics of the spacecraft are modeled using the Clohessy-Wiltshire-Hill equations, which result in a linear system of relative motion equations. Only in-plane motion is considered, resulting in a two-dimensional system, and the control input is the acceleration vector of the active spacecraft, constrained by a maximum thrust value. Individual controllers are designed for different phases of the of approach and transitions are governed by a hybrid supervising algorithm. The hybrid control algorithm is implemented both in MATLAB, using a simplified dynamic model, as well as in actual spacecraft flight code and tested in a high-fidelity spacecraft simulation test environment.

机译：提出了一种混合控制方法，用于自主的Rendezvous，接近操作和一对航天器的对接。对于控制算法的理论发展，航天器的动态使用CLOHESSY-WILTSHIRE-HILL方程式建模，这导致相对运动方程的线性系统。仅考虑在平面内运动，导致二维系统，并且控制输入是活动空间的加速度向量，受到最大推力值的约束。各个控制器被设计用于方法的不同阶段，过渡由混合监督算法控制。混合控制算法在MATLAB中实现，使用简化的动态模型，以及在实际航天器飞行代码中，并在高保真航天器模拟测试环境中进行测试。

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《IFAC Workshop on Networked and Autonomous Air and Space Systems》|2018年|147p|共6页
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作者
Jason R. Crane; Christopher W. T. Roscoe; Bharani P. Malladi; Giulia Zucchini; Eric Butcher; Ricardo G. Sanfelice; Islam I. Hussein;
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中图分类 TP23-53;
关键词
Hybrid systems; Spacecraft autonomy; Satellite control; Aerospace control; Clohessy-Wiltshire-Hill equations;

机译：混合系统;航天器自治;卫星控制;航空控制;CLOHESSY-WILTSHIRE-HILL方程;

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专利

1. Hybrid Control for Autonomous Spacecraft Rendezvous Proximity Operations and Docking [J] . Jason R. Crane, Christopher W.T. Roscoe, Bharani P. Malladi, IFAC PapersOnLine . 2018,第12期

机译：自主航天器交会操作和对接的混合控制
2. Hybrid Control for Autonomous Spacecraft Rendezvous Proximity Operations and Docking [J] . Jason R. Crane, Christopher W.T. Roscoe, Bharani P. Malladi, IFAC PapersOnLine . 2018,第12期

机译：自主航天器交会操作和对接的混合控制
3. Adaptive relative pose control for autonomous spacecraft rendezvous and proximity operations with thrust misalignment and model uncertainties [J] . Liang Sun, Zewei Zheng Advances in space research . 2017,第7期

机译：具有推力失准和模型不确定性的自主航天器交会和接近操作的自适应相对姿态控制
4. Hybrid Control for Autonomous Spacecraft Rendezvous Proximity Operations and Docking [C] . Jason R. Crane, Christopher W. T. Roscoe, Bharani P. Malladi, IFAC Workshop on Networked and Autonomous Air and Space Systems . 2018

机译：自治航天器的混合控制Rendezvous接近操作和对接
5. Multi-sensor fusion based control for autonomous operations: Rendezvous and docking of spacecraft. [D] . McDonald, Jonathan Bryan. 2006

机译：基于多传感器融合的自主操作控制：交会和航天器对接。
6. Robust H∞ Control for Spacecraft Rendezvous with a Noncooperative Target [O] . Shu-Nan Wu, Wen-Ya Zhou, Shu-Jun Tan, 2013

机译：健壮的H具有非合作目标的航天器交会的∞控制
7. Robust hybrid supervisory control for rendezvous and docking of a spacecraft [O] . Bharani P. Malladi, Ricardo G. Sanfelice, Eric Butcher, 2016

机译：稳健的混合监督控制宇宙飞船的应对和对接

Hybrid Control for Autonomous Spacecraft Rendezvous Proximity Operations and Docking

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