两步法快速解算编队卫星GPS模糊度

为克服卫星编队飞行实时相对定位中双频模糊度解算速度慢的缺点,结合扩展Kalman滤波(EKF,Extended Kalman Filter),首先采用少数个历元(如10个)相位平滑伪距相对定位结果与 L₆的平均值对滤波初始化,再根据两步法解算双频模糊度,即先解算并正确固定宽巷模糊度,获得较准确的基线分量估值,然后采用选权拟合方法,将基线分量作为约束条件解算并固定双频模糊度.仿真算例计算结果表明,当宽巷模糊度正确固定后,编队卫星间相对定位误差在5cm以内,两步法可以在较短时间(约3min)内固定双频模糊度,为精确解算编队卫星的相对状态提供保障.     

卫星导航系统传感器故障识别

传感器是卫星导航系统中的重要部件,其故障的检测和识别对提高系统可靠性具有重要意义。给出了一种基于模糊逻辑的卫星导航系统传感器故障识别方法。首先采用T-S模糊模型描述卫星导航系统,然后应用全解耦奇偶方程的方法进行故障检测,并利用卡尔曼滤波器进行故障参数识别。仿真结果表明,针对导航系统中多个传感器同时发生故障的情况,此方法能有效检测故障,并能准确识别故障参数。     

Earth remote sensing as an effective tool for the development of advanced innovative educational technologies

Current educational system is facing a contradiction between the fundamentality of engineering education and the necessity of applied learning extension, which requires new methods of training to combine both academic and practical knowledge in balance. As a result there are a number of innovations being developed and implemented into the process of education aimed at optimizing the quality of the entire educational system. Among a wide range of innovative educational technologies there is an especially important subset of educational technologies which involve learning through hands-on scientific and technical projects. The purpose of this paper is to describe the implementation of educational technologies based on small satellites development as well as the usage of Earth remote sensing data acquired from these satellites. The increase in public attention to the education through Earth remote sensing is based on the concern that although there is a great progress in the development of new methods of Earth imagery and remote sensing data acquisition there is still a big question remaining open on practical applications of this kind of data. It is important to develop the new way of thinking for the new generation of people so they understand that they are the masters of their own planet and they are responsible for its state. They should desire and should be able to use a powerful set of tools based on modern and perspective Earth remote sensing. For example NASA sponsors “Classroom of the Future” project. The Universities Space Research Association in United States provides a mechanism through which US universities can cooperate effectively with one another, with the government, and with other organizations to further space science and technology, and to promote education in these areas. It also aims at understanding the Earth as a system and promoting the role of humankind in the destiny of their own planet. The Association has founded a Journal of Earth System Science Education. Authors describe an effective model of educational technology developed in the Center for Earth Remote Sensing of Bauman Moscow State Technical University and based on scientific and educational organizations integration in the field of applied studies. The paper also presents how students are being trained to acquire and process satellite imagery data from Terra and Aqua satellites. It also reveals the results of space monitoring for Russia's ecologically complex regions conducted by Bauman Moscow State Technical University students in cooperation with specialists from the Laboratory for Aerospace Methods of Moscow State University named after M. Lomonosov.     

基于RBF网络辨识的挠性卫星姿态自适应控制

为满足挠性卫星姿态控制的更高要求,提出了一种基于径向基函数（RBF）网络辨识的模糊自适应控制方法。根据卫星姿态动力学方程,将RBF辨识网络引入模糊神经网络的T-S模型,以辨识卫星,在线修改模糊神经控制器（FNC）参数,使卫星的姿态角度达到设定值。仿真结果表明：该法能有效克服卫星的不确定性,提高卫星姿态的控制精度。     

某卫星挠性附件姿态动力学研究

根据导出的某有大型太阳帆板的挠性卫星数学模型,分析了模型中挠性振动对质心和姿态运动的影响,给出了卫星系统的动力学方程,并对帆板展开、卫星稳态运行的模型作工程化处理。分析和仿真结果表明：该方法能降低模型的复杂度,满足大型卫星的姿态指向精度和稳定度要求。     

“北京一号”小卫星图像分析

20世纪80年代中期开始,世界航天界兴起了发展小卫星的热潮,特别是小卫星星群或星座的发展,将取代部分现代大型应用卫星的功能。文章提出并总结了图像综合品质评价技术指标,对中国的“北京一号”（DMC＋4灾难监测星座）小卫星图像进行评价,从图像的空间分辨率、光谱分辨率和时间分辨率几个方面对中国“北京一号”小卫星图像进行分析。     

文献A Successful Strategy for Satellite Development and Testing点评

文章对美国在1998-2002年执行"快,好,省"采购改革方案期间航天器故障率上升146%的3个原因进行了分析与点评.这3个原因包括:对标准、规范严格遵循的意识下降;航天元器件复合度激增;系统工程管理失控.文章对抑制故障率上升的对策进行归纳,其中最重要的一条是:卫星研制工作必须严谨,一丝不苟地按照相关标准进行(环境)试验.     

卫星发射试验风险控制

文章回顾了为保证安全执行发射任务所进行的“风云3号”卫星发射试验风险控制工作:通过分解卫星发射试验流程中的主要事件并结合FMEA和FTA分析结果,辨识并确认了卫星在执行进场发射试验时可能导致任务失败的安全性关键项目,在此基础上从设计、生产、试验、工艺保证、质量控制等方面制定并落实了一系列安全性保障措施,从而确保卫星安全发射。     

一种基于偏好MOEA的卫星地面站资源多目标优化算法

随着中国航天事业的发展,卫星地面站资源匮乏问题日益突出,需要对其进行统筹优化使用。因此,卫星地面站资源规划问题得到了广泛关注。在分析问题特点的基础上,对用户规划结果的偏好信息进行建模表达,建立了涵盖用户偏好的多目标数学规划模型,提出了基于偏好多目标进化算法的卫星地面站资源规划算法。为了进一步提升算法性能,设计了基于领域知识的启发式策略,包括：任务扩充策略、冲突消解策略以及任务缩减策略等。实验结果表明,与现有算法相比,用户偏好信息的引入能有效提升问题求解针对性,在IGD-CF （Inverted Generational Distance based on Composite Front）指标上取得了更好的效果。     

关于太阳耀斑观测的地图匹配算法实现

利用海洋的镜面反射进行太阳耀斑观测,要求以星下点为中心的卫星视场必须落在海洋区内。针对如何判定卫星视场和海岸线地图的位置关系问题,文章将卫星视场构成的矩形区域与海岸线地图构成的不规则多边形区域等效为多条线段集合,并提出一种把判断矩形与不规则多边形位置关系转化成判断等效线段之间位置关系的算法。该算法与传统的线段裁剪法或多边形裁剪法比较,具有无需求取线段交点、判断次数大幅减小等优点,能够达到快速判断能否进行耀斑观测的目的。