基于COSMIC掩星精密定轨数据的等离子体层电子含量研究

等离子体层是日地环境重要的组成部分.本文利用COSMIC掩星精密定轨数据经处理后得到的podTec文件获取等离子体层电子含量（PEC）对等离子体层进行研究.将podTec数据进行处理后获得的PEC（pod-PEC）和IRI-Plas经验模型提供的PEC （IRI-PEC）进行对比，发现pod-PEC与IRI-PEC符合得较好.在低（0°—20°）、中（20°—50°）、高（50°—90°）修正地磁纬度带下，分析了COSMIC在太阳活动极大年（2014年）3，6，9和12月的pod-PEC，得到如下结论:PEC随着纬度升高而逐渐减少，且3，9月PEC在中低纬关于磁赤道的南北对称性较好，6月北半球各纬度带的PEC明显高于南半球同一纬度带的值，而12月情况则完全相反，南半球中纬的PEC甚至会等于北半球低纬的PEC值；PEC在白天高而晚上低，高纬地区的PEC昼夜变化不明显；PEC具有明显的季节性.对于北半球，一年中PEC最大值出现在春季，冬秋季次之，夏季最低，具有明显的年度异常现象.      

The propagation features of LF radio waves at topside ionosphere and their variations possibly related to Wenchuan earthquake in 2008

The artificial low frequency (LF) signals recorded at topside ionosphere from DEMETER satellite were analyzed in this paper, and the typical diurnal and seasonal variations were illustrated around 162?kHz in electric field spectra. The larger power spectrum density (PSD) values in electric field at local nighttime and in winter season all demonstrate the correlation feature of lower plasma content to higher penetration of LF waves into ionosphere. Around Wenchuan earthquake, the comparison of signal-noise-ratio (SNR) values in electric field with each half month during January to May in 2008 and the same half month in May from 2005 to 2007 revealed their lowest values and small covering area around the preparation region of Wenchuan earthquake in 2008. Combined with other researches in VLF radio waves and geochemical observations from satellite, the interaction of ion accumulation and upward movement from gas-water release at surface might be a key factor to disturb the ionospheric plasma density, and then possibly leading to the decrease of low energy penetration of LF radio waves from the artificial transmitted source at ground.     

Maximal admissible mode decision delay in terminal guidance

Mode decision-maker is a critical component in the logic-based Integrated Estimation and Guidance(IEG) system. For the best possible estimation and guidance performance, the mode decision delay of the mode decision-maker should be limited to a range as small as possible. This paper presents a numerical method for computing the maximal admissible mode decision delay that varies with time-to-go. Particular attention has been paid to highly maneuvering target interception in terminal guidance. The results of this research offer useful guidelines for the design of the mode decision-maker in IEG systems.     

Thermodynamic Modeling and Simulation of Air System Control Device

This paper aims to obtain the thermodynamic characteristics of the air system control device sealing part in different compressor bleed air and ambient temperature. On the basis of considering the main factors affecting the heat exchange process and simplifying the physical model of the air system control device,the thermodynamic model of air system control device is established based on the basic theory of laminar flow heat transfer and heat conduction theory.Then the piston motion characteristics and the thermodynamic characteristics of the air system control device seal are simulated. The simulation results show that the valve actuation dynamic time of piston is about 0.13 s in the actual working conditions,and the temperature effect on the dynamic response of the piston rod is only 5 ms when the inlet air temperature at 300 ℃ and 370 ℃. The maximum temperature of the air system control device sealing part is not more than 290 ℃ under long time working condition of compressor air entraining. The highest temperature of the sealing part can reach up to 340 ℃ when the air flow temperature reaches the limit temperature of 370 ℃,and the longest duration working temperature limit is not more than 14 s. Therefore,the selection of control device sealing material should consider the work characteristic of instantaneous temperature limit.     

散射对高温气体-碳黑颗粒混合物辐射传输的影响

基于全光谱k分布(Full spectrum k distribution,FSK)模型、MIE理论和有限体积法(Finite volume method,FVM),构建了均温、均质辐射参与性气体-碳黑颗粒混合物介质热辐射传输模型,并分析了碳黑不同尺寸、不同体积浓度以及介质不同路径长度和不同温度条件下,因忽略碳黑颗粒散射所导致的介质热辐射传输特性(如辐射热流、辐射源项)的计算误差。研究结果表明:体积分数不变,增大粒径,计算误差呈现出先增大后减小的趋势;数密度不变,增大粒径,或者粒径不变,增大体积分数,均将使得计算误差相应增大;粒径、体积分数不变,增大路径长度,或者升高介质温度,均将增大计算误差。通常对于含有大颗粒、高碳黑浓度的辐射参与性气体-碳黑颗粒混合物介质,碳黑颗粒散射不能忽略。     

复杂动态环境下无人飞行器动态避障近似最优轨迹规划

针对复杂动态环境下无人飞行器的动态障碍规避问题，基于合理假设建立了无人飞行器和动态障碍的运动学模型，并综合考虑无人飞行器飞行过程中的终端约束、控制输入约束、安全避障约束等，以能量最少为性能指标构建动态避障问题数学描述。之后，针对终端约束和控制输入约束，依据优化模型预测静态规划算法(OMPSP)生成初始轨迹；针对动态避障问题的不等式约束，引入松弛变量并结合滑模变结构控制方法设计松弛变量动力学，实现对一个、多个或同时多个动态障碍的安全规避；最后，依据有限时间微分动态规划(RHDDP)算法进行轨迹优化，获得满足上述各种约束并能规避动态障碍的近似最优轨迹。     

基于数字孪生的智能脉动管控

为提升飞机总装脉动生产线智能化水平,开展了基于数字孪生的智能脉动管控研究。基于数字孪生五维模型理论构建了飞机总装脉动生产线数字孪生应用架构,从反应式计划调度、物流精准配送、智能作业指导、产线健康监视、资源迭代优化配置5个方面开展了技术研究,为复杂产品装配的智能制造应用提供参考。     

基于语义相似度计算的航天标准关联度评价

随着航天领域各级各类标准编制数量的逐年递增，相关标准之间的交叉重复制定问题随之而来。为解决该问题，文中通过计算语义相似度的方法开展航天领域标准名称、标准范围及主要内容的关联度评价。算例分析结果表明，该方法可以有效评估标准间的关联程度。     

全柔性空间机器人基于虚拟力的输出反馈有限维重复学习控制及振动抑制

探讨了基座、关节、臂均存在柔性情况下，空间机器人关节轨迹运动及多重柔性振动的主动控制和主动抑制问题.结合线性弹簧、扭转弹簧、简支梁及假设模态法，利用拉格朗日方程建立了基座、关节、臂全柔性影响下的空间机器人系统动力学模型，利用奇异摄动法，将模型分解为关节运动慢变子系统与关节柔性振动快变子系统.为控制慢变子系统中载体姿态、关节刚性运动并且抑制臂的柔性振动，依据虚拟控制力的概念，设计了基于有限维傅里叶级数解析周期信号的输出反馈重复学习算法.李雅普诺夫直接法证实了上述控制器的稳定性.为了抑制快变子系统中基座和关节的柔性振动，分别采用线性二次最优控制方法以及引入关节柔性补偿器间接增大关节等效刚度的方式，使控制算法不局限于求解弱非线性问题.系统数值仿真结果表明，所提出的控制器能够有效抑制机器人多重柔性构件的振动，实现对期望信号的高品质追踪.      

华南地区台风全局化结构及风场特征实测研究

基于探空气球、雷达风廓线仪等设备长期观测数据,对影响华南地区热带气旋的全局化结构及风场特征进行了实测研究.以典型台风为例,考察了系统水平及垂直主结构特征,揭示了台风双眼壁结构、眼壁置换现象以及登陆后结构的轴非对称变化特征.提出了台风气压场水平轴非对称模型和垂直剖线模型,分析了台风气压场两关键参数(最大风速半径及Holland-B)数值分布特征及其与其他参数间的内在关系.采用复合分析技术,对不同来流状况下台风边界层风场特征进行研究,考察了风速剖线低空急流和风向随高度偏转的特征及其随径向距离和来流地貌的变化规律,建立了以低空急流为特征的台风垂直剖线经验模型,为精确化评估高层建筑风荷载提供数据和技术支撑.相关研究成果有助于深化对华南地区热带气旋全局化结构及风场特征的认识,并为合理评估该地区台风风灾害及构筑物台风风效应提供参考.