Optimal Maneuver Strategy to Improve the Observability of Angles-Only Rendezvous

IF 1.9 3区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS

Journal of Systems Engineering and Electronics Pub Date : 2023-08-01 DOI:10.23919/JSEE.2023.000091

Ronghua Du;Wenhe Liao;Xiang Zhang

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Abstract

This paper proposes an optimal maneuver strategy to improve the observability of angles-only rendezvous from the perspective of relative navigation. A set of dimensionless relative orbital elements (ROEs) is used to parameterize the relative motion, and the objective function of the observability of angles-only navigation is established. An analytical solution of the optimal maneuver strategy to improve the observability of angles-only navigation is obtained by means of numerical analysis. A set of dedicated semi-physical simulation system is built to test the performances of the proposed optimal maneuver strategy. Finally, the effectiveness of the method proposed in this paper is verified through the comparative analysis of the objective function of the observability of angles-only navigation and the performances of the angles-only navigation filter under different maneuver schemes. Compared with the cases without orbital maneuver, it is concluded that the tangential filtering accuracy with the optimal orbital maneuver at the terminal time is increased by 35% on average, and the radial and normal filtering accuracy is increased by 30% on average.

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提高纯角度交会可观测性的最优机动策略

本文从相对导航的角度提出了一种提高纯角度交会可观测性的最优机动策略。利用一组无量纲相对轨道元素（ROE）对相对运动进行参数化，建立了纯角度导航可观测性的目标函数。通过数值分析，得到了提高纯角导航可观测性的最优机动策略的解析解。建立了一套专用的半物理仿真系统来测试所提出的最优机动策略的性能。最后，通过对纯角度导航可观测性目标函数和纯角度导航滤波器在不同机动方案下的性能的比较分析，验证了本文提出的方法的有效性。与没有轨道机动的情况相比，得出结论：在终端时间进行最优轨道机动时，切向滤波精度平均提高了35%，径向和法向滤波精度分别平均提高了30%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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