轨道检查博弈公式及Epsilon-Nash均衡解

IF 1.3 4区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of Spacecraft and Rockets Pub Date : 2023-11-08 DOI:10.2514/1.a35800

Zhen-Yu Li, Hai Zhu, Ya-Zhong Luo

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引用次数: 0

摘要

本文研究了在轨检查任务中两个航天器竞争成像条件的轨道检查博弈。首先，分析了影响成像条件的主要因素，包括太阳角度、太阳角度变化率、相对距离和距离变化率，制定了现实的多因素检测博弈。一个近似的转换型收益函数是专门设计的，用于将这些因素的所有边界约束纳入博弈模型。然后，导出了纳什均衡的解析必要条件，并将其转化为两点边值问题。但与传统路线解决TPBVP问题不同，本文提出了一种较轻的协同状态优化方法，利用两侧最优推力方向相同的结论，利用epsiln - nash均衡理论，将TPBVP问题转化为直接优化问题。证明了epsilon- nash平衡的存在性，并给出了小epsilon的必要条件。最后，通过对GEO探测任务的仿真，验证了所提博弈公式的优越性和所提方法的高效性和准确性。

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Orbital Inspection Game Formulation and Epsilon-Nash Equilibrium Solution

This paper studies an orbital inspection game, which involves two spacecraft competing for imaging conditions in an on-orbit inspection mission. First, the main factors affecting the imaging conditions, including the sun angle, sun-angle changing rate, relative distance, and distance changing rate, are analyzed to formulate a realistic multiple-factor inspection game. An approximate switching-type payoff function is specially designed to incorporate all the boundary constraints of those factors into the game model. Then, the analytical necessary conditions for the Nash equilibrium are derived and converted as a two-point boundary value problem (TPBVP). But different from conventional routes to solve the challenging TPBVP, a lighter costate optimization method is proposed, which transforms the TPBVP to a direct optimization problem by employing the conclusion that the optimal thrust directions of both sides are the same and utilizing the theory of the epsilon-Nash equilibrium. The existence of the epsilon-Nash equilibrium is proven, and the necessary conditions for a small epsilon are derived to support the method. Finally, simulations of the GEO inspection missions demonstrated the superiority of the proposed game formulation and the high efficiency and accuracy of the proposed method.

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来源期刊

Journal of Spacecraft and Rockets 工程技术-工程：宇航

CiteScore

3.60

自引率

18.80%

发文量

185

审稿时长

4.5 months

期刊介绍： This Journal, that started it all back in 1963, is devoted to the advancement of the science and technology of astronautics and aeronautics through the dissemination of original archival research papers disclosing new theoretical developments and/or experimental result. The topics include aeroacoustics, aerodynamics, combustion, fundamentals of propulsion, fluid mechanics and reacting flows, fundamental aspects of the aerospace environment, hydrodynamics, lasers and associated phenomena, plasmas, research instrumentation and facilities, structural mechanics and materials, optimization, and thermomechanics and thermochemistry. Papers also are sought which review in an intensive manner the results of recent research developments on any of the topics listed above.