优化包络面积法三角平动点短周期轨道设计与分析OA
Design and analysis of short period orbits of triangular translation points by optimized envelope area method
首先建立了圆型限制性三体动力学模型与高精度动力学模型,针对沿x方向轨道延拓能力较为有限的问题,提出了三角平动点短周期轨道的角度延拓法并求解出了更大范围的地月三角平动点短周期轨道族.然后,针对摄动力影响下,三角平动点短周期轨道易于发散,不利于工程应用以及并行打靶法在计算多圈短周期轨道时计算量大,收敛性难以保证的问题,提出了高精度模型下三角平动点短周期轨道的优化包络面积法和混合法等高效计算方法.最后,采用该方法对地月L4点的短周期轨道进行了分析,发现高精度模型下地月系短周期轨道包络近似于圆型限制性三体轨道但散布于包络内,以及不同历元计算的短周期轨道最终都稳定在一定范围内等特点,为三角平动点的实际应用打下了基础.
This paper first establishes the circular restricted three-body dynamics model and a high-precision dynami-cal model.To address the limited orbital extension capability along the x direction,an angle extension method for short-period orbits of triangular libration points is proposed,which solves the family of larger-range lunar-Earth triangu-lar libration points'short-period orbits.Considering that short-period orbits around the triangular libration points are prone to divergence under the influence of perturbing forces,thereby limiting their engineering applications,and that the parallel shooting method has large computational loads and poor convergence when calculating multi-orbit short-period orbits,this study proposes efficient calculation methods under high-precision models,including the optimized envelope area method and hybrid method for short-period orbits of triangular libration points.Using the proposed meth-ods,an analysis of the short-period orbit at the lunar L4 point was conducted.The results indicate that under the high-precision model,the envelope of short-period orbits in the lunar-Earth system is approximately consistent with that of circular restricted three-body problem,while orbits are scattered within the envelope.Moreover,short-period orbits calculated at different epochs ultimately stabilize within a certain range.These findings lay the foundation for the practi-cal application of triangular libration points.
刘勇;范大伟;刘磊;李皓皓;曹鹏飞
北京航天飞行控制中心,北京 100094北京航天飞行控制中心,北京 100094北京航天飞行控制中心,北京 100094北京航天飞行控制中心,北京 100094北京航天飞行控制中心,北京 100094
航空航天
圆型限制性三体问题三角平动点坐标延拓包络面积短周期轨道
circular restricted three-body problemtriangular translation pointcoordinate continuationenvelope areashort-periodic orbit
《航空学报》 2026 (7)
260-271,12
航天飞行动力学技术国家级重点实验室基金 National Key Laboratory Fund for Space Flight Dynamics Technology
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