基于对偶数的相对耦合动力学与控制

针对空间交会对接等目标逼近任务中姿态和轨道运动相耦合的问题,推导给出了基于     

视场约束的交会对接V-bar撤离控制研究

利用解析和数值结合的方法研究了在视场约束条件下交会对接V-bar撤离的控制问题。描述了交会对接V-bar撤离的径向冲量机动方案，说明了径向机动撤离方案具有减少羽流污染和故障情况下能够避免飞行器碰撞的优点。基于CW方程推导出了机动点位于V-bar上的特殊情况下径向冲量和视场角的解析公式，同时也得到了求最大视场角时刻和冲量作用后V-bar方向撤离距离的计算公式。对于任意机动点的一般情况，得到了求解径向冲量和视场角关系的非线性方程，这一方程可利用数值方法求解。最后，通过数值仿真验证了该方法的正确性。     

空间交会对接的双脉冲最优控制

本文首先利用交会对接的固有动力学特性，施加第一脉冲推力使追踪器自动到达目标器位置；第二脉冲推力使两个飞行器相对速度降为零。本文根据双脉冲控制原理寻找燃料消耗最省的交会对接时间。最后通过大量数学仿真，比较各种初始条件下的交会对接动力学特性和燃料消耗。     

哥伦布航天器对轨道碎片撞击危害的设计考虑

简要介绍了欧洲空间局在执行哥伦布计划期间，在载人压力舱和有人照料的自由飞行器的设计阶段。对微流量和轨道碎片撞击危害的防护研究方面所做的主要工作。     

宽马赫数路德维希管风洞及其关键技术

随着高马赫数飞行器研制需求的增加,急需脉冲型风洞运行范围向中低马赫数段扩展,特别是需要具有跨马赫数运行能力。以路德维希管原理运行的管风洞试验设备,由于建设及使用成本较低、参数调节方便、流场品质高等优点,已在亚/跨/超声速及高超声速领域得到了发展和应用,体现出了宽马赫数的应用潜力。本文分析了宽马赫数脉冲型风洞发展现状,重点介绍了路德维希管风洞及其在宽马赫数应用中急需解决的关键技术,包括宽马赫数喷管设计技术、高温管外加热技术以及高温高压隔离技术。     

空间平台发射拦截器动力学与最优脉冲拦截

研究了空间平台发射拦截器的两体耦合动力学,以及拦截器拦截目标星的最优脉冲控制问题。平台首先与目标星形成绕飞关系,保持其发射筒轴线始终瞄准目标星。接到发射指令后,拦截器从发射筒中射出,本文采用拉格朗日第二类方程建立了发射过程平台-拦截器两体动力学模型。因为两体耦合影响,平台姿态偏转,拦截器出筒时的速度已经不能瞄准目标星。通过小型火箭发动机给其施加速度脉冲,使其进入拦截轨道,保证拦截的同时,将脉冲速度最小化以节省燃料,本文将其归结为一个非线性规划问题,采用三级优化的策略来求解。在拦截飞行时间相较于平台绕飞目标星的周期是小量的条件下,可以视绕飞平均角速度为小参数,采用正则摄动方法求出非线性规划的一阶近似解,然后以此为迭代初值,寻找最优真解。最后进行了数值仿真验证。     

Reachable domain of spacecraft with a single tangent impulse considering trajectory safety

The reachable domain of the two-body transfer orbit with a single upper-bounded tangent impulse is studied. Three cases are analyzed for either the magnitude of the tangent impulse or the initial impulse point being free, or both being free. For a fixed impulse magnitude and a free initial impulse point, the initial orbit is proved to be one of the envelopes of the reachable domain. Moreover, the trajectory safety for the transfer orbit requires a lower bound on the perigee altitude and an upper bound on the apogee altitude. Then the ranges of the impulse magnitude and the initial true anomaly can be obtained by solving quadratic and cubic inequalities, respectively. If both constraints are required for an arbitrary impulse point, the range of the impulse magnitude is obtained with impulses at the perigee and the apogee. Several numerical examples with different eccentricities are provided to show the geometry of the reachable domain and to verify the proposed method.     

航天飞行器热防护涂层研究进展

近年来,新研航天飞行器气动热环境往往具有高焓、高热流密度和长时间加热等特点,这促使防热材料的研制朝着低密度、高抗烧蚀、优良隔热等性能的方向发展。受自身材料类型的限制,无论烧蚀型(树脂基)或非烧蚀型(陶瓷基)防热材料都可以通过对烧蚀表面进行涂层处理的手段达到弥补材料性能短板,提高使用性能的目的。本文试图梳理、总结国内外近年来热防护系统用涂层材料的发展状况,探讨各自的优势和缺点,并提出了针对树脂基复合材料热防护涂层可能趋势的推测。     

Dynamics of a spacecraft and normalization around Lagrangian points in the Neptune–Triton system

The problem of a spacecraft orbiting the Neptune–Triton system is presented. The new ingredients in this restricted three body problem are the Neptune oblateness and the high inclined and retrograde motion of Triton. First we present some interesting simulations showing the role played by the oblateness on a Neptune’s satellite, disturbed by Triton. We also give an extensive numerical exploration in the case when the spacecraft orbits Triton, considering Sun, Neptune and its planetary oblateness as disturbers. In the plane a × I (a = semi-major axis, I = inclination), we give a plot of the stable regions where the massless body can survive for thousand of years. Retrograde and direct orbits were considered and as usual, the region of stability is much more significant for the case of direct orbit of the spacecraft (Triton’s orbit is retrograde). Next we explore the dynamics in a vicinity of the Lagrangian points. The Birkhoff normalization is constructed around L₂, followed by its reduction to the center manifold. In this reduced dynamics, a convenient Poincaré section shows the interplay of the Lyapunov and halo periodic orbits, Lissajous and quasi-halo tori as well as the stable and unstable manifolds of the planar Lyapunov orbit. To show the effect of the oblateness, the planar Lyapunov family emanating from the Lagrangian points and three-dimensional halo orbits are obtained by the numerical continuation method.