新一代GNSS接收机的智能跟踪状态评估技术

新一代全球导航卫星系统的接收机需要根据用户所处环境,自适应地调整接收机内部参数以达到最稳健的导航效果。这就要求接收机在运行过程中通过评估跟踪状态去检测和分析用户场景。基于对传统接收机控制系统缺陷的分析,提出了智能接收机的概念、特点及系统框架;在此基础上设计、分析接收机的智能跟踪状态评估算法;最后通过仿真验证了所设计的算法可以有效地识别场景及场景间的切换。     

测速雷达信标测量数据复原新方法

给出了一种测速雷达信标测量多普勒频率复原的新方法,此方法与目标运动的初始轨道参数无关。与已有方法相比较,新方法解决了已有数据复原方法对初始轨道参数的依赖性,理论上消除了初始轨道参数精度对数据复原精度的影响。通过与已有方法计算结果的比对分析表明,新方法能够满足数据处理精度要求,具有较好的适用性,是实现信标测量数据复原的有效途径。     

原子钟频率稳定度测试中的噪声处理

原子钟的测量噪声会被引入到频率稳定度评估过程,尤其是对中短期频率稳定度的影响更大。重叠Allan方差可以克服调频闪变噪声和调频随机游走噪声随时间变化出现的非平稳问题,但由于受到测量噪声的影响,评估结果仍会出现误差。为此,本文通过对原子钟的数学模型和噪声特性进行分析,提出了原子钟频率稳定度评估的加窗平滑噪声处理方法,通过对时差观测序列合理的加窗设计和平滑处理,抑制测量噪声对评估结果的影响。实验结果表明,利用铷钟观测序列的100点平滑可以有效地提高短期频率稳定度结果（100~1 000）s的可信度。     

基于MHSS算法的ARAIM完好性和可用性预测

传统的接收机自主完好性监视只能提供非精密进近阶段的完好性监视,无法实现对完好性要求更加严格的飞行阶段的监视,而高级接收机自主完好性监视（AdvancedReceiverAutonomousIntegrityMonitoring,ARAIM）可以在精密进近阶段为飞机提供满足航向信标性能垂直引导（LocalizerPerformancewithVerticalguidance,LPV）的完好性监视服务。文章基于多假设分组解算法,根据目前的星座环境,结合民航不同飞行阶段的应用需求,对ARAIM算法进行仿真研究。针对水平保护级（HorizontalProtectionLevel,HPL）和垂直保护级（VerticalProtectionLevel,VPL）的指标,在不同星座组合环境下,选取南北半球不同经纬度的5个观测机场,分别仿真了HPL和VPL的变化情况,并对全球HPL和VPL平均分布趋势,以及以99%的概率满足LPV-200进近可用性指标时,ARAIM可用性的全球覆盖率进行了仿真预测分析。仿真结果表明,不论是全球定位系统和格洛纳斯双星座还是增加北斗卫星导航系统后的三星座,5个观测机场的HPL和VPL均能满足LPV-200进近对完好性指标的要求;但在全球范围内,双星座条件下,ARAIM并不能完全支持LPV-200进近对完好性监视的要求,而三星座则可大大提高ARAIM的可用性,为民航用户提供满足精密进近的所需导航服务性能。     

Onboard orbit determination using GPS observations based on the unscented Kalman filter

Spaceborne GPS receivers are used for real-time navigation by most low Earth orbit (LEO) satellites. In general, the position and velocity accuracy of GPS navigation solutions without a dynamic filter are 25 m (1σ) and 0.5 m/s (1σ), respectively. However, GPS navigation solutions, which consist of position, velocity, and GPS receiver clock bias, have many abnormal excursions from the normal error range for space operation. These excursions lessen the accuracy of attitude control and onboard time synchronization. In this research, a new onboard orbit determination algorithm designed with the unscented Kalman filter (UKF) was developed to improve the performance. Because the UKF is able to obtain the posterior mean and covariance accurately by using the second-order Taylor series expansion through the sampled sigma points that are propagated by using the true nonlinear system, its performance can be better than that of the extended Kalman filter (EKF), which uses the linearized state transition matrix to predict the covariance. The dynamic models for orbit propagation applied perturbations due to the 40 × 40 geo-potential, the gravity of the Sun and Moon, solar radiation pressure, and atmospheric drag. The 7(8)th-order Runge–Kutta numerical integration was applied for orbit propagation. Two types of observations, navigation solutions and C/A code pseudorange, can be used at the user’s discretion. The performances of the onboard orbit determination were verified using real GPS data of the CHAMP and KOMPSAT-2 satellites. The results of the orbit determination were compared with the precision orbit ephemeris (POE) of the CHAMP and KOMPSAT-2 satellites.     

基于全相位频谱插值的欠采样频率估计

提出利用两个独立欠采样通道输出信号的互谱函数实现对欠采样信号的无模糊频率估计,为了提高测频精度,需要对信号真实频率与最大频域输出幅值对应量化频率的偏差进行较高精度的估算,采用全相位FFT与传统FFT联合校正频率偏差的方法,提出了全相位Rife综合算法,根据全相位FFT输出的最大谱线和次大谱线的比值决定采用全相位Rife算法或修正的细化Rife算法,仿真结果验证了该方法的有效性及高精度特性。     

基于Kalman滤波的GPS/INS接收机自适应干扰抑制方法

 考虑到惯导信息辅助GPS(GPS/INS)接收机对干扰抑制实时性的要求,提出一种基于Kalman滤波的GPS/INS接收机自适应干扰抑制方法。自适应广义旁瓣相消(GSC)多采用低复杂度最小均方(LMS)算法更新权矢量,收敛速率较低,严重时会导致接收机定位中断。首先利用Householder变换构建GSC下支路的阻塞矩阵,用于阻塞任意二维阵型阵列接收的期望信号;再用Kalman滤波自适应更新下支路权矢量,从而有效提高阵列输出信干噪比(SINR)。理论分析和仿真结果说明本文方法可有效抑制干扰对接收机的影响,且具有实时性高的特点。     

Quality variation of GPS satellite clocks on-orbit using IGS clock products

Over 60% clocks on board of the GPS satellites are working longer than their designed life. Therefore realizing their stabilities in a long time scales is essential to GPS navigation and positioning plus IGS time scale maintaining. IGS clock products from 2001 to 2010 are used to analyze the GPS satellite clock qualities such as frequency stabilities and clock noise level. We find out that for the clocks of Block IIA satellites the frequency stabilities and clock noise are 10 times worse than that of the Block IIR and IIR-M satellites. Moreover, the linear relationships between frequency stabilities and clock residuals have been deduced with an accuracy of better than 0.02 ns. Specially, it is noticed that the clock of the PRN27 is instable and the relationship between the frequency stability and residuals is at least a quadratic curve. Therefore, we suggested that GPS satellite clocks should be weighted by their quality levels in application, and the observations of the Block IIA should not be used for real-time positioning which required precision better than one meter.     

GNSS接收机数字载波跟踪环建模与噪声性能分析

针对GNSS接收机高灵敏度跟踪问题,研究数字载波跟踪环热噪声相位颤动与相干积累时间长度的关系.在分析I·Q鉴相器的Costas载波环信号处理流程的基础上,建立了新的环路线性化模型.基于该模型,推导了由最佳模拟环路滤波器双线性变换离散化得到的数字载波跟踪环的噪声性能.数值分析表明:采用I·Q鉴相器的二阶、三阶数字载波环热噪声相位颤动,随相干积累时间的增大先减小后增大,存在热噪声相位颤动最小意义上的最佳相干积累时间.仿真结果验证了理论分析结论,同时表明新建模型对数字载波跟踪环的描述比传统模型更准确.文中给出的各载噪比和环路带宽组合条件下的最佳相干积累时间,可用于指导高灵敏度接收机载波跟踪环设计.     

无线电引信接收机测试难点及解决途径

针对某型号无线电引信接收机测试设备研制,对测试中遇到的技术难点进行了探讨,给出了解决途径。研制的难点体现在ns级高速度脉冲调制、ns级时序与宽度可调节多路脉冲生成,脉冲多普勒调制信号大范围量程调节与泄漏脉冲电路模拟。其中的泄漏脉冲叠加到脉冲多普勒信号的功能,成功地模拟了引信科研生产中特定现象,在测试设备研制中属首次。测试结果和使用情况表明,所研制的设备达到了预期的技术要求,满足使用。方法在类似型号无线电引信接收机测试测试中具有参考意义。