基于时频二维估计的卫星导航失锁快速重定位技术

卫星导航接收机在天线受到遮挡或者弱信号环境中易出现信号失锁现象,信号恢复后的重定位时间成为接收机的一项重要性能指标。提出一种基于时频二维估计、适用于中低动态应用场景的失锁快速重定位技术,利用信号失锁前测量的载波多普勒频率和码相位等信息对失锁后的多普勒频率及码相位进行估计,信号恢复后直接启用信号跟踪,无需进行位同步和帧同步,即可实现快速重定位。对该技术进行工程实现及试验验证,结果表明信号输入功率高于–145dBm(积分时间为10ms)、失锁时间小于60s时,接收机重定位时间在1s以内。     

无杆臂误差快速传递对准方法

机载或舰载武器系统惯性导航系统动基座对准的首选方案就是传递对准,速度匹配传递对准因为其较好的水平失准角可观测性以及线性量测模型得到了广泛的应用。但当载体存在角运动时,速度匹配传递对准必须对杆臂误差进行补偿,由于变形的存在,使得杆臂误差的准确补偿存在较大的困难。针对这一问题,研究了一种不需要进行杆臂误差补偿的快速传递对准方案,能够在杆臂误差较大时,以较快的速度获得较高的失准角估计精度。计算机仿真结果验证了理论分析的正确性。     

航天器编队飞行及其关键技术的开发

简要论述由分布式航天器系统构成的空间编队飞行的概念 ,扼要介绍 NASA为未来航天器编队飞行项目开发的几项关键技术 ,着重阐明基于 GPS的分散式编队飞行控制和相对导航技术能充当未来多星编队飞行任务的导航系统 ,从而使未来的空间科学研究发生深刻变化     

水下重力辅助惯性导航关键技术研究及实现

重力辅助惯性导航已渐成水下导航领域的研究热点,其实现是一项复杂的工程,涉及多项的关键技术.文章首先介绍了重力辅助导航的基本原理;之后详细阐述了在真实海洋环境下,重力辅助导航所需解决的若干关键技术问题,并给出了相应的研究成果;最后总结了我国水下重力辅助导航的发展趋势及研究的若干建议.     

Lateral Flight Technical Error Estimation Model for Performance Based Navigation

Flight technical error (FTE) combined with navigation system error (NSE) is the main part of total system error (TSE) in performance based navigation (PBN).The implementation of PBN requires pre-flight prediction and en-route short-term dynamical prediction of the TSE.Once the sum of predicted lateral FTE and NSE is greater than the specified PBN value,the PBN cannot operate.Thus,accurate modeling and thorough analysis of lateral FTE are indispensible.Multiple-input multiple-output (MIMO) lateral track control system of a transport aircraft is designed using linear quadratic Gaussian and loop transfer recovery (LQG/LTR) method,and the lateral FTE of a turbulence disturbed approach operation is analyzed.The error estimation mapping function of latera FTE and its bound estimation algorithm are proposed based on singular value theory.According to the forming mechanism of lateral FTE,the algorithm considers environmental turbulence fluctuation disturbance,aircraft dynamics and control system parameters.Real-data-based Monte-Carlo simulation validates the theoretical analysis of FTE.It also shows that FTE is mainly caused by turbulence fluctuation disturbance when automatic flight control system (AFCS) is engaged and would increase with escalating environmental turbulence intensity.     

弹地人在回路末制导时延补偿改进模型

基于弹地通信链路的人在回路制导导弹利用惯性导航系统短时导航精度高的特点,对导弹末制导中导引指令的时间延迟提出了两种补偿模型及改进方法。通过Simulink仿真,得出距离和导引量与目标横向误差的关系及其方法改进后精度的提高幅度,并进行了分析。仿真结果验证了该方法的有效性。     

Optimal network topology of relative navigation and communication for navigation sharing in fractionated spacecraft cluster

Navigation sharing as a key technology provides orbit and attitude information broadcasting for the whole fractionated spacecraft cluster (FSC). The navigation sharing concept has already been proposed for some years. However, the problem of achieving the optimal navigation sharing by designing the proper network topology is still unsolved, especially in the case that some members of the cluster have absolute navigation devices, some just have relative navigation devices and some only have communication devices. In this paper, a comprehensive model of describing the navigation sharing problem in FSC is proposed. The model of network topology constructing by relative navigation links and communication links is established. By using the graph theory and genetic algorithm as the tool, the conditions for navigation sharing in FSC with different sharing degrees are obtained. Finally, some examples are presented to test the methods, and it has been found that, the absolute positions and attitudes of all the members can still be determined even some members in FSC have no absolute navigation devices.     

变长竿式制导问题数学模型

制导问题数学模型对研究交会及拦截问题都具有重要意义，本文提出一种变长竿式制导问题数学模型，此模型视线被当作一条变和旋转竿，通过研究其旋转，长度变化来研究制导系统性能，比常用模型含有更多关于制导问题性能的信息。用它释放了比例导引律下小视线距视线角速率失稳原因，提出了制导系统视线全值域角速率稳定以提高制导精度的设计方法，讨论了比例导引能否实现预测栏截问题等。     

Environmental reference systems for large-scale spaces

Human navigation in well-known environments is guided by stored memory representations of spatial information. In three experiments (N = 43) we investigated the role of different spatial reference systems when accessing information about familiar objects at different locations in the city in which the participants lived. Our results indicate that two independent reference systems underly the retrieval of spatial knowledge. Environmental characteristics, e.g., the streets at an intersection, determine which headings are easier to imagine at a given location and lead to differences in accessibility of spatial information (orientation-specific behavior). In addition, access to spatial information depends on the relative direction of a location with respect to the imagined heading, such that information about locations imagined in front of oneself is easier to access than about locations towards the back. This influence of an egocentric reference system was found for environmental knowledge as well as map-based knowledge. In light of these reference system effects, position-dependent models of spatial memory for large-scale environments are discussed. To account for the simultaneous effect of an environmental and an egocentric reference system, we present a 2-level model of spatial memory access.     

Algorithmic support of a small-sized navigation system on the basis of the magnetoinertial course transmitter

The algorithmic support of a small-sized navigation system on the basis of the magnetoinertial course transmitter is considered; the support makes it possible to significantly reduce accumulating errors that are due to incomplete data on wind parameters and decrease requirements for random errors of initial data sensors.