抑制UKF发散的改进算法在卫星轨道确定中的应用

为避免实际应用中一般无迹Kalman滤波（UKF）算法的不稳定性,基于对传统线性Kalman框架的UKF算法造成滤波发散现象的阐述,讨论了无迹转换（uT）的基本原理开口UKF算法,并给出了造成滤波发散的原因,提出了两种抑制滤波发散的改进UKF算法。仿真分析了某星载GPS低轨卫星轨道发散的主因,结果表明改进算法有效。     

C/C复合材料等温CVI工艺T-S模糊系统研究

等温CVI是目前制备高性能碳／碳(C／C)复合材料的重要技术,其主要不足之处是周期长,成本高,建立CVI工艺参数与沉积速率或均匀性之间的关系模型,进而来指导工艺的设计与优化,是达到降低C／C复合材料开发成本的重要途径。本文提出基于模糊推理系统理论,建立等温CVI工艺基于实验的T—S模糊系统模型,来挖掘和表达实验中所积累的无法用公式来描述的经验,根据该模型得到了一类盘状制件CVI工艺主要沉积条件的作用机理,为工艺优化、设计和控制提供了理论上的指导。     

测定端羟基聚丁二烯羟值的乙酐—对甲苯磺酸法改进研究

对测定端羟基聚丁二烯(HTPB)羟值的乙酐—对甲苯磺酸法(酸催化AA法)进行了系统研究,在此基础上提出了两种改进方法,方法Ⅰ以甲苯—乙酸乙酯为反应介质,溶样、酯化同时进行;方法Ⅱ以甲苯预溶样品,然后再行酯化,改进后的方法仍保持原法快速、准确等特点、且扩大了其应用范围,前者适用于各种类型HTPB样品的羟值分析,后者可用于测定HTPB弹性体溶胶的羟值。     

融合TRIAD算法用于GPS姿态确定

研究把观测矢量定姿算法用于ＧＰＳ姿态确定。传统的ＴＲＩＡＤ算法利用两个非平行矢量确定载体的三轴姿态,但它存在对主矢量敏感,且不能利用第３根矢量的测量信息等缺点。文章提出一种改进的ＴＲＩＡＤ算法,克服了主矢量敏感问题;为了能利用３根基线的观测信息,在ＯＰＴＴＲＩＡＤ算法的基础上提出融合ＴＲＩＡＤ算法,它可以提高定姿精度。用接收机进行了实验,结果表明改进的ＴＲＩＡＤ算法确实克服了主矢量敏感问题;较之传     

星载GPS低轨卫星几何法精密定轨研究

本文讨论了星载ＧＰＳ接收机为单频情形的代轨卫星几何法定轨,包括载波一相对定轨法和动态网定轨法,并利用Ｔｏｐｅｘ／Ｐｏｓｅｉｄｏｎ卫星星载ＧＰＳ实测数据中Ｌ１载波相位观测值进行验证,结果表明,载波相位相对定轨精度与地面基准站的观测质量有关,其三轨道位置精度为分米级;载波相位动态风定轨精度介于各基准站皮相位相对定轨之间,它相当于在各基准站相对定轨之间加权均衡,而且提高了定轨的可靠性。     

近地卫星的GPS自主定轨算法研究

为了用GPS实现近地卫星的高精度自主定轨,提出了采用序贯UD协方差分解滤波算法作为定轨算法.完整地给出了序贯UD分解算法的计算公式,详细地推导了系统的状态方程和观测方程,建立了由9维状态向量和8维观测向量组成的导航系统模型.最后作了数字仿真试验,试验结果表明,文中的定轨算法既有较高的精度又便于星上计算机的实现.     

Particle filter-based real-time phase line bias estimation for GNSS-based attitude determination with common-clock receivers

Global navigation satellite system (GNSS)-based attitude determination has been widely adopted in a wide variety of terrestrial, sea, air, and space applications. Recently, the emergence of commercial multi-GNSS common-clock receivers has brought new opportunities for high-precision GNSS-based attitude determination with single-differenced (SD) model. However, the key requirement of using this approach is the accurate estimation of the troublesome line bias (LB) in real-time. In this contribution, we propose a particle filter-based real-time phase LB estimation approach that apply to SD model with single-system single-frequency observations from common-clock receiver. We first analyzed the relationship between the integer ambiguity ratio value and the phase LB. It is proved that the accuracy of a given phase LB value can be qualified by the related ambiguity resolution ratio value, and the normalized ratio value can therefore be used to represent the likelihood function of observations. Then, we presented the particle filter-based real-time phase LB estimation procedure, and assessed its performance using GPS L1/BDS B1I observations from two datasets collected with different types of common-clock receivers in terms of the accuracy and convergence time of phase LB estimation, the computation load, and the positioning and attitude determination accuracy with respect to the double-differenced (DD) model. Experimental results demonstrated that the phase LB could be accurately estimated with short convergence time (generally within 15 epochs). Moreover, compared with the classical DD approach, the particle filter-based SD approach delivers comparable positioning root-mean-square (RMS) errors in the North and East components but significantly smaller RMS errors in the Up component. Accordingly, the achievable yaw accuracy is comparable whereas the pitch accuracy is remarkably improved. The improvements of positioning accuracy in the Up component and pitch accuracy are approximately 35.7 % to 63.7 %, and 33.3 % to 63.1 %, respectively. Additionally, the single-epoch computation time with our particle filter-based SD approach is generally 0.08 s, which is obviously larger than the DD approach but could still meet the requirements of real-time applications below 10 Hz sampling.     

反辐射导弹导引头多目标分辨方案研究

提出被动微波导引头多目标鉴别电路和战时电子支援系统一体化设计的设想，贯彻“面载复杂、弹载从简”的原则，使被动微波反辐射导弹导引头信号分选和目标识别电路力求简单。     

星敏感器测量模型及其在卫星姿态确定系统中的应用

星敏感器是卫星高精度姿态测量的重要部件，如何正确建立其测量误差模型是影响姿态确定精度的关键因素。本文推导出星敏感器三轴姿态测量误差的方差计算公式，对测量误差的性质进行研究，揭示了在星敏感器三轴测量中，光轴测量精度劣于根据另两轴测量所确定的光轴指向精度。在此基础上提出了新的星敏感器测量模型，给出改进的姿态滤波器观测方程，减小了观测误差，由此可以进一步提高姿态确定的精度。本文方法不仅适用于通常使用的双星敏感器姿态确定系统，也可独立地应用于只带单个星敏感器的姿态确定系统。     

利用磁强计数据确定卫星姿态的简易滤波算法

针对一类俯仰轴负向安装有偏置动量轮的重力梯度稳定的三轴主动磁控微小卫星,在分析其数学模型的基础上,将俯仰通道与滚动-偏航通道解耦,分别给出了仅用磁强计测量数据确定各通道姿态的卡尔曼滤波算法。并进一步分析了滤波系统模型的周期性,探讨了实现周期滤波增益的可行性。最后通过仿真算例验证了该滤波算法的有效性以及采用周期滤波增益的可行性。