多重直扩信号的快速捕获

多重直扩信号的快速捕获得卫星定位及通信系统研制过程中遇到的一个主要课题，它的实现，不仅可以提高系统的多址能力，而且也是系统实现的必备条件，本文阐明了多重直扩信号的来源以及可被分离的理论依据，给出了多重直扩信号快速捕获的硬件实现方案及部分实验结果，得出了一些重要结论。     

捷联惯导系统大方位失准角下的非线性对准

采用欧拉角描述平台坐标系与导航坐标系间的失准角,推导了适用于捷联惯导系统的非线性误差方程,证明了该方法仅适用于方位误差角为大角度,而水平误差角为小量的情况。数学仿真表明:在方位误差角为大角度情况下,采用所推导的误差方程和非线性滤波技术能获得更高的估计精度。     

利用地磁场测量的小卫星自主导航设计

地磁场矢量是卫星所在位置的函数 ,通过对地磁场的测量 ,即可实现对近地小卫星的自主导航。本文采用卡尔曼滤波技术设计了小卫星基于地磁场测量的导航方法 ,在采用地磁场模型时选取磁偶极子模型 ,以此使设计算法的计算量大大减少。最后利用数字仿真验证了系统性能。     

GPS/INS 组合导航系统降阶滤波器设计

本文研究了某型号飞机上ＧＰＳ／平台惯性组合导航系统中降阶卡尔曼滤波的设计方法。文中提出了一种降阶滤波器结构，并讨论了模型误差的伪随机噪声补偿方法。采用蒙特——卡洛分析法对降阶滤波器的实际误差进行了数字仿真，结果表明：本文提出的这种降阶滤波器能保证组合系统的导航精度，是一种具有实际使用价值的滤波器     

基于四元数法的舰载无人机回收系统测高技术研究

文章针对舰载无人机在着舰回收过程中,由于海浪颠簸对引导系统高度测量严重干扰的问题,利用四元数导航算法提出了一种新型的舰载无人机回收系统测高方法。首先采用捷联惯导测高系统设计方案,同时利用微机械的惯性测量组件,提高系统的可靠性和集成度;然后,利用四元数导航算法求取各个姿态方位参数,再用旋转矢量法补偿不可交换性误差,推导出舰船甲板的升沉高度实际值,为克服传统纯惯导测量算法的不稳定性,提出一种具有三阶阻尼特性的互补滤波器算法,并在测量系统输入端加入巴特沃斯滤波器去除杂波干扰,得到需要测量的高度变化值。最后,通过对比传统纯惯性方法下测高系统输出值、加入真实气压表互补滤波后测高系统输出值和加入零均值阻尼信号互补滤波测高系统输出值,三种不同情况下的仿真结果,验证了所提方案的有效性。     

Optimization of geosynchronous satellite constellation for independent regional navigation and positioning in Middle East region

Regional Navigation and positioning systems using geosynchronous satellites are emerging for different parts of the world. Optimal constellation geometry achievement for a set of geosynchronous satellites is a key sector in designing of such systems. Genetic algorithm is applied for optimization of constellations with 6 and 7 satellites which is to be used in Middle East region where these systems have been deprived of. Based on the fact that the coverage criterion is not sufficient enough to guarantee a good navigation service, positioning process by the satellite systems is discussed and the performance of the system on the basis of position dilution of precision is collected as the fitness criterion. Placing the satellites in groups to pass over the same ground track is applied as a constraint to the genetic algorithm. By simulation, performance of the best obtained results and GPS are compared in terms of position dilution of precision, visibility and the required epochs (time span) to resolve the ambiguities with a 99% success rate, in this region. Also, capability of the GA for such problems is demonstrated.     

空间非合作目标的相对导航粒子滤波算法

针对激光交会雷达作为在空间交会对接过程中的相对导航敏感器,研究了未来特殊背景下,非合作目标航天器对雷达信号发射干扰的情况下的相对导航滤波算法.针对高维模型计算量大的特点对传统粒子滤波算法进行了改进,并与扩展卡尔曼滤波器进行了仿真比较,仿真结果表明改进后的粒子滤波器的滤波效果远远优于扩展卡尔曼滤波器,且计算量优于传统粒子滤波.     

PINS静基座对准中的理论与算法的研究

分析了平台式惯导系统(PINS)静基座条件下的可观测性,采用系统可观测矩阵的条件数来定量计算PINS静基座可观测性能,找出该条件下的可观测矩阵条件数最小的3个不可观测变量.采用了自适应Kalman算法和常规Kalman算法对简化模型进行了仿真比较.仿真结果表明前者比后者滤波收敛快.进而提出了一种基于Elman神经网络的快速对准方法.     

Cooperative augmented proportional navigation and guidance for proximity to uncooperative space targets

Navigation and proximity to non-cooperative targets have garnered the interest of both academia and industry. This paper proposes a new space operation concept that would enable two CubeSats equipped with only optical sensor to achieve autonomous and robust proximity with uncooperative satellites. This is a novel strategy for distributed spacecraft missions and applications.Because optical sensors are lightweight and therefore reduce reliance on external measurement sources, the case for their use is compelling. Designing robust guidance and control algorithm is the greatest challenge for optical sensors because relative distance information is unavailable, whereas range information is required for safe proximity. The purpose of this paper is to propose a novel concept in which two CubeSats cooperate and share angle measurement data to approach uncooperative targets despite their maneuverability.This paper introduces a new guidance scheme for proximity operations, namely cooperative augmented proportional navigation (CAPN). Modern control law is applied along line-of-sight (LOS) while classical proportional navigation is applied in the normal direction of LOS. By measuring only elevation and azimuth angles between each chaser and the target, the algorithm can account for a maneuvering target. The cooperative scheme offers estimation-based distance measurement, which enhances the observability of angle-only navigation.Target’s maneuverability and different control parameter settings have been considered in simulation scenarios. The degree of observability (DOO) is then introduced as the quantitative observability analysis metric to validate the effectiveness of the guidance scheme and precision of the estimation. The results of simulations have demonstrated that the CAPN proposed in this paper is capable of completing challenging proximity missions.