翼伞精确定点着陆归航方法研究

文章介绍一种翼伞精确定点着陆归航的方案 ,按高度将归航过程划分为 6个阶段 ,给出了每个阶段的制导算法 ,讨论了系统的稳定性并给出结论。     

GPS的空间应用

由于ＧＰＳ系统的特点以及低轨道空间的特殊应用环境，使得ＧＰＳ在空间上的应用存在着与地面应用所不同的特点，本文着重分析这些空间特点对ＧＰＳ定位实现的影响，得出以下结论：对空间用户而言，ＧＰＳ卫星对用户的覆盖有着不同于地面的特点，但可以看出，对９００公里高度以下的低轨用户，ＧＰＳ卫星对用户的覆盖不会比地面更差。同时，电离层延迟误差影响大大降低，对流层延迟误差可以不予考虑。ＧＰＳ系统本身已对相对论效应的长期项影响作了校正，但对空间用户必须重新考虑。由于空间用户运动的规律性，及我们可能对诸如信号的Ｄｏｐｐｌｅｒ频移，多路径干扰等成份作较为准确的估计并加以补偿，从而可能获得高于地面的测量精度     

航天器交会对接中GPS的应用

卫星定位和卫星通讯是正在寻求的空间飞行器高级自主交会系统的首选测控手段。本文概述了航天器的交会对接基本要求和过程以及美国全球定位系统（ＧＰＳ）和组成、定位原理、精度和差分原理后，列出了两种形式的相对运动方程。利用运动方程求解、单纯ＧＰＳ、差分ＧＰＳ的结合，可以完成追踪航天器向目标航天器接近的整个导引过程，且可以省去庞大的地面遥控遥测、星上雷达等设备，减少误差源。仿真计算证实了这一设计思想的可行性和     

GPS用于靶场测量设备动态精度校准方法的研究

介绍 GPS(Global Postioning System)用于靶场测量设备动态精度校准的一种技术方案、设备组成及实现的有关问题。     

GPS 定位算法研究

给出卫星信号接收时刻ＧＰＳ时的计算方法，然后在Ｇａｕｓｓ－Ｎｅｗｔｏｎ法的基础上得到一个正常情况下的完整的ＧＰＳ迭代定位算法。最后讨论只有三颗可见卫星时的处理方法。     

一种实用的基于GPS的飞行试验记录仪

以某小型飞行器靶场试验为背景 ,对弹载接收机GPS外测系统进行简化 ,设计并实现了一种实用的基于GPS的飞行试验记录仪。该记录仪按照实时记录、事后分析的方式工作 ,经过多次打靶试验 ,达到了以非常低的成本获得飞行试验数据的目的     

GPS时差数据卡尔曼滤波器

利用卡尔曼滤波技术对GPS定时校频数据进行处理提高精度,是国际上近几年的最新研究课题。全面的介绍了北京无线电计量测试研究所开展该项技术的研究成果,从基本理论,滤波器模型选定、滤波器设计、仿真试验分析等方面作了论述,并给出实际应用的实验结果。对国内开发应用该技术具有参考价值。     

基于岭估计理论实现GPS快速定位研究

针对在短时间内 GPS观测方程的法方程容易形成病态的实际 ,探讨用岭估计理论消除其病态性的方法 ,然后用 LAMBDA方法确定其整周模糊度。实验证明 ,对于单频 GPS接收机 ,在 1 min左右 ,利用该技术即可正确确定整周模糊度 ,从而实现厘米级定位     

Azimuth selection for sea level measurements using geodetic GPS receivers

Based on analysis of Global Positioning System (GPS) multipath signals recorded by a geodetic GPS receiver, GPS Reflectometry (GPS-R) has demonstrated unique advantages in relation to sea level monitoring. Founded on multipath reflectometry theory, sea level changes can be measured by GPS-R through spectral analysis of recorded signal-to-noise ratio data. However, prior to estimating multipath parameters, it is necessary to define azimuth and elevation angle mask to ensure the reflecting zones are on water. Here, a method is presented to address azimuth selection, a topic currently under active development in the field of GPS-R. Data from three test sites: the Kachemak Bay GPS site PBAY in Alaska (USA), Friday Harbor GPS site SC02 in the San Juan Islands (USA), and Brest Harbor GPS site BRST in Brest (France) are analyzed. These sites are located in different multipath environments, from a rural coastal area to a busy harbor, and they experience different tidal ranges. Estimates by the GPS tide gauges at azimuths selected by the presented method are compared with measurements from physical tide gauges and acceptable correspondence found for all three sites.     

Plasmaspheric electron content derived from GPS TEC and FORMOSAT-3/COSMIC measurements: Solar minimum condition

The plasmaspheric electron content (PEC) was estimated by comparison of GPS TEC observations and FORMOSAT-3/COSMIC radio occultation measurements at the extended solar minimum of cycle 23/24. Results are retrieved for different seasons (equinoxes and solstices) of the year 2009. COSMIC-derived electron density profiles were integrated up to the height of 700 km in order to retrieve estimates of ionospheric electron content (IEC). Global maps of monthly median values of COSMIC IEC were constructed by use of spherical harmonics expansion. The comparison between two independent measurements was performed by analysis of the global distribution of electron content estimates, as well as by selection specific points corresponded to mid-latitudes of Northern America, Europe, Asia and the Southern Hemisphere. The analysis found that both kinds of observations show rather similar diurnal behavior during all seasons, certainly with GPS TEC estimates larger than corresponded COSMIC IEC values. It was shown that during daytime both GPS TEC and COSMIC IEC values were generally lower at winter than in summer solstice practically over all specific points. The estimates of PEC (h > 700 km) were obtained as a difference between GPS TEC and COSMIC IEC values. Results of comparative study revealed that for mid-latitudinal points PEC estimates varied weakly with the time of a day and reached the value of several TECU for the condition of solar minimum. Percentage contribution of PEC to GPS TEC indicated the clear dependence from the time with maximal values (more than 50–60%) during night-time and lesser values (25–45%) during day-time.