A Flatness-Based Trajectory Planning Algorithm for Rendezvous of Single-Thruster Spacecraft

机译：基于平坦的单推推空间的共陶系列轨迹规划算法

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This work presents a trajectory planning algorithm for spacecraft rendezvous with a passive target. The main assumption is that the chaser vehicle has a single thruster and an attitude control system (e.g. reaction wheels) providing the necessary torque to change its orientation, which may be the situation for small spacecraft or in the case of thruster failure. The goal is to design fuel-optimal manoeuvres while satisfying operational constraints. This time-continuous optimal control problem is addressed using the translational state transition matrix and the attitude flatness property to transform the dynamics into algebraic relations. Then, the problem is transformed to a non-linear programming problem which has to be solved. Simulation results are showed and discussed.

机译：这项工作提出了一种轨迹规划算法，用于航天器与无源目标的轨道集合。主要假设是追逐车辆具有单一推进器和姿态控制系统（例如反应轮），提供必要的扭矩以改变其取向，这可能是小型航天器或在推进器失效的情况下的情况。目标是设计燃料最佳的动作，同时满足操作约束。使用翻译状态转换矩阵和姿态平坦性属性来解决这个时间连续的最佳控制问题，以将动态变为代数关系。然后，问题被转换为必须解决的非线性编程问题。仿真结果显示和讨论。

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《IFAC Workshop on Networked and Autonomous Air and Space Systems》|2018年|147p|共6页
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Julio C. Sanchez; Francisco Gavilan; Rafael Vazquez; Christophe Louembet;
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中图分类 TP23-53;
关键词
Spacecraft autonomy; Space robotics; Trajectory planning; Optimal trajectory; Constrained control;

机译：航天器自治;空间机器人;轨迹规划;最佳轨迹;受限控制;

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1. A Flatness-Based Trajectory Planning Algorithm for Rendezvous of Single-Thruster Spacecraft ? [J] . Julio C. Sanchez, Francisco Gavilan, Rafael Vazquez, IFAC PapersOnLine . 2018,第12期

机译：单推力航天器交会的基于平面度的轨迹规划算法？
2. Flatness-based trajectory planning for electromagnetic spacecraft proximity operations in elliptical orbits [J] . Zhu Yan-wei, Cai Wei-wei, Yang Le-ping, Acta astronautica . 2018,第NOVa期

机译：椭圆轨道上电磁航天器接近操作的基于平面度的轨迹规划
3. A flatness-based predictive controller for six-degrees of freedom spacecraft rendezvous [J] . Acta astronautica . 2020,第Feba期

机译：基于平面度的六自由度航天器交会的预测控制器
4. A Flatness-Based Trajectory Planning Algorithm for Rendezvous of Single-Thruster Spacecraft [C] . Julio C. Sanchez, Francisco Gavilan, Rafael Vazquez, IFAC Workshop on Networked and Autonomous Air and Space Systems . 2018

机译：基于平坦的单推推空间的共陶系列轨迹规划算法
5. Inclusion of Asymmetric Properties in the Single-thruster Open-Loop Slew Control Algorithms for Prolate Spinning Spacecraft [D] . Chanik, Abadi. 2017

机译：扁旋航天器单推力开环回转控制算法中的不对称特性
6. Beam Search Algorithm for Anti-Collision Trajectory Planning for Many-to-Many Encounter Situations with Autonomous Surface Vehicles [O] . Jolanta Koszelew, Joanna Karbowska-Chilinska, Krzysztof Ostrowski, 2020

机译：用于自主地面车辆的多对多遇到的防撞轨迹规划的光束搜索算法
7. A Flatness-Based Trajectory Planning Algorithm for Rendezvous of Single-Thruster Spacecraft [O] . Julio C. Sanchez, Francisco Gavilan, Rafael Vazquez, 2018

机译：一种基于平整的轨迹规划算法，用于单推进器航天器的集合
8. Use of automated rendezvous trajectory planning to improve spacecraft operations efficiency [R] . Mulder, Tom A. 1991

机译：使用自动交会轨迹规划来提高航天器的运行效率

A Flatness-Based Trajectory Planning Algorithm for Rendezvous of Single-Thruster Spacecraft

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