动能拦截器变结构自动驾驶仪设计方法研究

介绍了动能拦截器自动驾驶仪回路组成和动力学模型 ,重点研究了动能拦截器自动驾驶仪的变结构控制律设计 ,并进行了原理性的数学仿真计算。数学仿真表明 ,变结构自动驾驶仪具有很好的快速性和很高的姿态控制精度 ,可以满足动能拦截器对姿态控制的要求     

轨道参数对阿尔法磁谱仪太阳辐射热流的影响

为探明阿尔法磁谱仪（AMS）的温度变化规律,并为制定AMS的热控制方案提供指导和依据,推导了AMS重要区域（AMS前方、后方、顶部和左舷）的太阳辐射热流计算公式,分析了这些区域太阳辐射热流随轨道参数的变化,解释了AMS顶部的温度变化和太阳辐射热流变化规律在热控方案中的应用。分析表明在国际空间站（ISS）正常飞行姿态下,AMS前、后方和左舷的太阳辐射热流受太阳光与ISS轨道面的夹角（β角）、ISS与会日点的角距（θ角）和地球阴影区的影响,AMS顶部太阳辐射热流受β角和θ角的影响。得出结论：β角、θ角和地球阴影区均是影响AMS温度的主要因素,各区域的太阳辐射热流变化规律可以作为设计AMS温度控制方案的主要依据之一。     

Midlatitude ionospheric F2-layer response to eruptive solar events-caused geomagnetic disturbances over Hungary during the maximum of the solar cycle 24: A case study

In our study we analyze and compare the response and behavior of the ionospheric F2 and of the sporadic E-layer during three strong (i.e., Dst?<??100nT) individual geomagnetic storms from years 2012, 2013 and 2015, winter time period. The data was provided by the state-of the art digital ionosonde of the Széchenyi István Geophysical Observatory located at midlatitude, Nagycenk, Hungary (IAGA code: NCK, geomagnetic latitude: 46.17° geomagnetic longitude: 98.85°). The local time of the sudden commencement (SC) was used to characterize the type of the ionospheric storm (after Mendillo and Narvaez, 2010). This way two regular positive phase (RPP) ionospheric storms and one no-positive phase (NPP) storm have been analyzed. In all three cases a significant increase in electron density of the foF2 layer can be observed at dawn/early morning (around 6:00 UT, 07:00 LT). Also we can observe the fade-out of the ionospheric layers at night during the geomagnetically disturbed time periods. Our results suggest that the fade-out effect is not connected to the occurrence of the sporadic E-layers.     

空间站常用元器件的霉菌敏感性研究

为研究空间站常用元器件的霉菌敏感性,选取空间站常用11大类元器件,针对霉菌对元器件的可能影响进行深入分析。基于空间站特定霉菌环境设计了加速试验方案,研究建立了基于元器件损伤程度的敏感等级分类方法,获取了不同元器件对霉菌的敏感性结果以及对应的敏感部位,为后续空间站用元器件质保工作的完善奠定基础。     

载人航天器的可重构式控温回路系统设计

文章提出了载人航天器的可重构式控温回路系统,它由独立的中低温内外回路系统组成,可改善低温内回路由于控温点温度较低而对辐射器散热能力带来的影响,还可在某个外回路辐射器故障时进行系统重构,维持回路功能。建立了控温回路系统非稳态仿真分析模型,对正常工作模式下和某外回路故障工作模式下各舱回路控温点温度、设备温度、流量分配和载人航天器热负荷水平进行了分析。结果表明,双外回路系统比单外回路系统散热能力高27%。当双外回路中某回路故障时,通过系统重构,外回路系统可维持1850W散热能力,能保障载人航天器平台安全,表明可重构式控温回路系统能提高系统可靠性。     

Recent Advances in Chinese Meridian Project

To develop an understanding of near-Earth space's response to solar activities and the coupling among different layers in geospace, China has initiated a ground base program to monitor China's geospace environment called the Meridian Space Weather Monitoring Project (Chinese Meridian Project). The effort consists of a chain of 15 ground-based observatories located roughly along 120°E longitude and 30°N latitude. Each observatory is equipped with multiple instruments to measure key parameters such as the baseline and time-varying geomagnetic field, as well as the middle and upper atmosphere and ionosphere from about 20 to 1000 kilometers. This project started collecting data in 2012. We will give a brief introduction to the Chinese Meridian Project, and present recent scientific results mainly in ionospheric and atmospheric studies.      

Science Researches of Chinese Manned Space Flight

With the complete success of the 2nd stage of Chinese Manned Space Program (CMSP), several science researches have been performed on Tiangong-1 experimental spacelab, which was docked with three Shenzhou spaceships one after another. The China's real spacelab, Tiangong-2 will be launched in 2015, docked with a Shenzhou spaceship soon. After six months, it will be docked with the first Chinese cargo ship (Tianzhou-1). More space science researches, involving with space biology, fluid physics, fundamental physics, materials science, Earth science, astronomy and space environmental science, will be operated on Tiangong-2 spacelab, and crewed and cargo spaceships. Furthermore, the considerable large-scale space utilization of Shina's Space Station is planned. The research fields include yet not limited to space medicine and physiology, space life science and biotechnology, fluid physics and combustion in microgravity, space material science, and fundamental physics in microgravity, space astronomy, Earth science, space physics and space environment utilization, technology demonstration.      

一种提高我国空间站中继测控覆盖率的方法

根据中继卫星的定点位置,对我国中继卫星-空间站的几何覆盖率进行了分析,并对提高空间站中继测控覆盖率的途径进行了研究,提出了一种采用不同舱段的2副中继天线融合使用,并通过调整天线安装布局提高中继测控覆盖率的方法。经理论分析和仿真验证,该方法能够有效地提高空间站中继测控覆盖率,可为我国空间站中继天线的安装布局设计提供参考。     

柔性导轨自动制孔机器人离线编程与仿真技术研究

特征建模、路径规划、工件坐标转换等是自动制孔机器人离线编程与仿真的核心技术,完善的特征建模技术和稳定高效的坐标转换算法能够为离线编程系统实用化提供重要保证。通过对工业机器人离线编程几个关键技术的研究,提出了适用于某型柔性导轨自动制孔机器人离线编程与仿真系统的建模、路径规划和坐标转换等方法。     

飞机颠簸及其飞行处置

目的研究导致飞机颠簸的天气形势和环境条件;方法通过对颠簸区中的飞行气象条件、影响颠簸的几个主要因素、颠簸对飞行的影响以及在颠簸区中飞行时飞行员应采取的一些措施做了简要介绍,分析飞机颠簸预报指数和指标;结果揭示产生飞机颠簸的气象条件;结论增强飞机气象保障能力,以保障飞行安全。