椭圆轨道相对动力学状态转移矩阵

针对已有研究的不足,给出了更加便于理论分析和工程应用,并具有普遍适用性的状态转移矩阵的一种新形式。基于Lawden方程推导了以三维空间中位置-速度表示的状态转移矩阵元素的具体表达式,并将其由角域变换到时域,得到了表示真实位置速度的状态转移矩阵,通过初等变换可以从该矩阵得到任意需要的形式。仿真结果表明了状态转移矩阵的有效性,可将其用于任意偏心率椭圆轨道的三维轨道交会、轨道修正、编队队形设计及控制问题。     

航天器单粒子防护薄弱点的识别

针对当前航天器研制中日益突出的单粒子防护量化设计问题,分析了单粒子软错误对航天器影响的特征,建立了评估器件或设备单粒子软错误对航天器影响的危害时间模型,给出了航天器单粒子防护薄弱点的识别方法和步骤,为改进航天器单粒子防护设计提供了客观依据。     

航天器声振力学环境预示与验证

针对航天器声振力学环境预示的难题,开展大型复杂航天器声振力学环境的预示方法研究和试验验证。首先结合航天器声振力学环境的特点,研究采用混合有限元-统计能量分析（FE-SEA）方法建立航天器声振预示模型的关键技术,在此基础上建立整星级和系统级航天器（整流罩-卫星-仪器舱-适配器组合体）的混合预示模型,最后将预示结果与噪声试验数据进行对比,验证了预示方法和模型的有效性,并基于分析结果探讨影响航天器声振力学环境预示精度的关键环节。     

智能材料和结构在变体飞行器上的应用现状与前景展望

变体飞行器可以根据不同的飞行条件改变自身形状以获得最优的气动性能,大大提高飞行器的综合性能,是未来飞行器发展的重要方向之一。新型智能材料和结构具有驱动、变形、承载、传感等特点,为变体飞行器的设计提供了新的技术途径。本文根据不同可变形机翼结构分类,详细阐述了智能材料和结构在自适应结构、智能驱动器和变形蒙皮等方面的研究现状。变体飞行器的实现亟需解决变形/承载一体化蒙皮技术、轻质大输出力驱动器技术和自适应结构技术等关键技术,本文还对智能材料和结构未来在变体飞行器上的应用前景进行了展望。     

Coordinated attitude control for flexible spacecraft formation with actuator configuration misalignment

This paper investigates the coordinated attitude control problem for flexible spacecraft formation with the consideration of actuator configuration misalignment. First, an integral-type sliding mode adaptive control law is designed to compensate the effects of flexible mode, environmental disturbance and actuator installation deviation. The basic idea of the Integral-type Sliding Mode Control (ISMC) is to design a proper sliding manifold so that the sliding mode starts from the initial time instant, and thus the robustness of the system can be guaranteed from the beginning of the process and the reaching phase is eliminated. Then, considering the nominal system of spacecraft formation based on directed topology, an attitude cooperative control strategy is developed for the nominal system with or without communication delay. The proposed control law can guarantee that for each spacecraft in the spacecraft formation, the desired attitude objective can be achieved and the attitude synchronization can be maintained with other spacecraft in the formation. Finally, simulation results are given to show the effectiveness of the proposed control algorithm.     

Optimal spacecraft formation establishment and reconfiguration propelled by the geomagnetic Lorentz force

The Lorentz force acting on an electrostatically charged spacecraft as it moves through the planetary magnetic field could be utilized as propellantless electromagnetic propulsion for orbital maneuvering, such as spacecraft formation establishment and formation reconfiguration. By assuming that the Earth’s magnetic field could be modeled as a tilted dipole located at the center of Earth that corotates with Earth, a dynamical model that describes the relative orbital motion of Lorentz spacecraft is developed. Based on the proposed dynamical model, the energy-optimal open-loop trajectories of control inputs, namely, the required specific charges of Lorentz spacecraft, for Lorentz-propelled spacecraft formation establishment or reconfiguration problems with both fixed and free final conditions constraints are derived via Gauss pseudospectral method. The effect of the magnetic dipole tilt angle on the optimal control inputs and the relative transfer trajectories for formation establishment or reconfiguration is also investigated by comparisons with the results derived from a nontilted dipole model. Furthermore, a closed-loop integral sliding mode controller is designed to guarantee the trajectory tracking in the presence of external disturbances and modeling errors. The stability of the closed-loop system is proved by a Lyapunov-based approach. Numerical simulations are presented to verify the validity of the proposed open-loop control methods and demonstrate the performance of the closed-loop controller. Also, the results indicate the dipole tilt angle should be considered when designing control strategies for Lorentz-propelled spacecraft formation establishment or reconfiguration.     

Nonlinear attitude tracking control for spacecraft formation with multiple delays

This paper addresses the attitude tracking control for spacecraft formation with delay free and communication delays. With help of the idea of sliding control, an adaptive attitude synchronization control architecture is established. Furthermore, by introducing a nonsmooth feedback function, a new class of nonlinear controllers for the attitude tracking of spacecraft is developed. Both parameter uncertainties and unknown external disturbances are dealt with via the kind of controllers. Finally, some simulation results are given to demonstrate the effectiveness and advantages of the proposed results.     

基于传递矩阵和宽频脉冲声的水声材料声学参数测量方法

本文提出利用传递矩阵和宽频脉冲分离法结合的方式,对水声材料的纵波声速和衰减系数进行了测试。介绍了使用收发合置换能器的测量方法、宽频脉冲信号的产生和测量结果,完成了测量不确定度分析。     

相变装置二维方腔内空穴分布规律研究

为了解微重力条件下空穴对相变传热过程的影响,在焓法的基础上增加了基于温度排序算法的空穴模型,在求解过程分析了温度场和空穴之间的相互作用;建立了相变装置的二维模型;研究了空穴在周期外热流条件下的移动规律。结果表明,从初始时刻到第8个轨道周期,低温区空穴逐渐消失并在高温区出现,空穴沿等温线方向扩散并最终积聚在高温边界附近,空穴的移动使传热路径上的热阻增大,导致相变装置冷热边界的传热温差增加了3℃。     

基于遗传算法的航天器再入动态终迹圈研究

为实现航天器安全准确地沿最优飞行轨迹再入,对航天器再入飞行过程中任意时刻飞行状态,在满足所有约束条件下,计算航天器所能达到的地面最大着陆区域,以判断该时刻飞行器能否到达预定着陆点。文章采用改进的遗传算法对航天器再入飞行轨迹进行优化,结合再入动态终迹圈计算方法,实现再入动态终迹圈的仿真计算。通过对仿真结果的对比分析,得到再入动态终迹圈及相应再入飞行轨迹的特性,对航天器再入飞行制导及航迹规划具有一定的借鉴意义。