卫星ATM网络中跨层设计的星上缓存管理优化方案

为提高卫星ATM(异步传递方式)网络星上缓存资源的利用率,针对利用上层协议重传的非实时数据业务,采用跨层设计方法提出了一种缓存管理优化方案—错误信元尾丢弃(ECTD)。它把信道误码引起的错误信元及后续的属于同一协议数据单元的无效信元丢弃。以早分组丢弃为基础,进一步建立了采用ECTD和不采用ECTD的分析有效吞吐量的数学模型。数值分析结果表明,ECTD具有优化缓存管理、提高有效吞吐量的作用,而且信元错误率和协议数据单元的长度越大,ECTD对有效吞吐量的改善就越明显。     

随振动量级增加卫星结构频率下移的分析

对卫星振动频率随量级增加而出现下降，即振动频率“漂移”的现象进行了初步分析。发现随振动量级的增加。结构的非线性表现突出。结构的刚度下降和阻尼增加，可认为主要是由蜂窝材料的非线性因素所致。     

惯性导航/双星组合导航的可行性研究

根据国外惯性导航／卫星组合的研究、发展和应用情况，分析了惯性导航／双星组合的必要性和可实现性；提出了惯性导航／双星组合中存在的主要问题和可能的对策。研究结果表明，惯性导航系统(INS)和双星定位系统的组合是完全必要和可行的；惯性导航／双星组合系统的性能比纯惯性导航有明显提高。     

基于绝对速度测量计的自主导航探讨

对用激光原理进行绝对速度测量和由它实现自主导航的概念进行了探讨。利用3个陀螺仪和3个激光测速计按直角坐标方式配置,即可组成基于绝对速度测量计的捷联式惯性测量组合。这种方法的优点是简化计算和有利于提高精度。     

非线性PD型比例导引鲁棒性研究

为研究存在视线角速度测量噪声时非线性比例微分(PD)型比例制导方案的鲁棒性,以近距大离轴角发射和目标大机动为拦截条件,对四种视线角速度测量噪声方差进行蒙特卡罗仿真模拟。结果表明,非线性PD型比例制导方案抗视线角速度测量噪声的鲁棒性强,对机动目标拦截制导精度高,是一种具工程应用价值的高精度末制导方案。     

FY—1C极轨气象卫星的进展

在概述美国和俄罗斯等国外极轨气象卫星发展概况的基础上，介绍了中国极轨与静止轨道两种气象卫星的业务应用卫星体系，重点介绍了“风云一号”（02星）即FY－1C极轨气象卫星的任务、总体设计、技术特点、关键技术以及所取得的进展。最后简述了新一代有轨气象卫星FY－3的发展设想。     

俄罗斯第五代光学侦察卫星

文章主要论述俄罗斯第五代光学侦察卫星(涅曼卫星)的飞行历史,包括发射日期选择,轨道选择和轨道机动、使用和工作寿命等内容。     

基于RBF网络的惯导系统初始对准

建立了惯导系统（ＩＮＳ）初始对准的线性和非线性误差模型。分析了径向基函数（ＲＢＦ）网络的结构和工作原理。研究了ＲＢＦ网代替初始对准中的卡尔曼滤波器的实现方法。通过仿真表明，用神经网络进行初始对准，既可获得与卡尔曼滤波相同的对准精度，又提高了系统的实时性。     

Representing a stable environment by egocentric updating and invariant representations

To represent a stable environment despite the experience of changes during self movements, one can either develop an invariant allocentric representation, or update the egocentric representations as one moves. Using a disorientation paradigm, three sets of studies investigated these mechanisms in human navigation and scene recognition. Accuracy in the configuration of multiple object localization is impaired by disorientation, an effect not due to artifacts such as memory deterioration over time, intervening physical activities, uncertainty in self position and orientation, etc., suggesting one can locate objects primarily by updating their egocentric positions as she or he moves. Disorientation also impaired the judgment of changes to a scene after viewer movements, suggesting a similar egocentric updating process. On the contrary, representation of the shape of the surroundings is invariant and persists through disorientation. The coexistence of multiple mechanisms may increase the flexibility and robustness of the system.     

Geometric reasoning under uncertainty for map-based localization

Map-based navigation in outdoor terrain lacking man-made structures or other highly distinctive landmarks can produce severe localization problems. This paper presents an approach to navigation which implements high level geometric reasoning and matching strategies based on those used by skilled human navigators. This approach, which is demonstrated on a real example involving imagery of mountainous terrain obtained with a video camera and USGS map data, is designed to avoid many of the pitfalls occurring when an attempt is made to navigate by modeling the environment mathematically. It exploits feature attributes which cannot be easily expressed quantitatively but are central to the successful human navigation process.