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1.
余凯 《测绘工程》2010,19(2):29-31
利用重叠哈达玛方差确定卫星钟噪声随机模型,采用顾及钟差随机噪声模型的卡尔曼滤波进行钟差预报分析,并与最小二乘预报算法相比较,得出以下结论:卡尔曼滤波进行1 d以内的短期预报时,精度达到亚纳秒级,优于最小二乘预报算法,在长期预报或拟合数据量较少时,最小二乘预报精度优于卡尔曼滤波。  相似文献   

2.
In order to estimate the satellite clock offset in a real-time mode, a new algorithm of adaptively robust Kalman filter with classified adaptive factors for clock offset estimation is proposed. Compared with standard Kalman filter clock offset model, the new method can detect and control outliers and clock jumps automatically in real-time. Moreover, the clock model parameters, which contain the clock offset, clock speed and clock shift, are classified to decide the adaptive factors in the new model. Thus, clock jumps with different characteristics can be distinguished more effectively. Meanwhile, the dynamic noise characteristics of clock offset series are used for stochastic modeling. An actual numerical example is presented, which shows that the proposed filter can give a better performance than other commonly used filters.  相似文献   

3.
钟差参数估计与预报是卫星导航系统应用中的一项关键技术。本文研究了基于哈达玛总方差的钟差参数预报方法。随机部分采用幂律谱模型,利用哈达玛总方差计算Kalman噪声参数,进而得到状态噪声和测量噪声协方差阵。最后利用IGS数据,验证了基于哈达玛总方差进行钟差参数估计与预报的适用性。结果表明,短期预报精度可达到亚纳秒级。  相似文献   

4.
Kalman滤波器稳态条件下的卫星钟差预报精度可作为评估星地时间同步性能的重要依据,研究了基于Kalman滤波器的卫星钟差预报精度问题。在卫星钟差包括3阶白噪声情况下,建立了卫星钟差的状态方程和测量方程,利用离散Riccati方程的非递归代数解,得到了Kalman滤波器的稳态解,进一步得到了卫星钟差预报误差,做了典型参数情况下的数值分析。  相似文献   

5.
Kalman滤波时间尺度算法是一种实时的原子钟状态估计方法,在守时实验室具有重要实用价值。由于原子钟状态模型误差估计存在偏差,Kalman滤波时间尺度算法中状态估计可能出现相应异常扰动,应当对状态模型误差进行实时控制。对此,引入基于渐消因子的改进Kalman滤波时间尺度算法。对状态预测协方差矩阵引入渐消因子,利用统计量实时计算渐消因子的量值,控制状态预测协方差阵的增长,降低了原子钟状态估计的扰动。实验结果表明,相比于标准Kalman滤波时间尺度算法和基于预测残差构造自适应因子的Kalman滤波算法,基于渐消因子的改进Kalman滤波时间尺度算法能够提高原子钟状态估计的准确度,改进时间尺度的稳定度。  相似文献   

6.
杨旭  王潜心  吕伟才 《测绘科学》2021,46(1):24-35,48
针对实时精密单点定位(RT-PPP)中实时数据流存在中断、延迟等问题,该文构建了顾及卫星钟自相关的随机模型,提出了一种基于方差分量估计的自适应卡尔曼滤波钟差超短期/短期预报算法,评估了连续27d实测法国空间研究中心(CNES)实时数据流CLK93产品完整率和精度水平,利用哈达玛方差对比分析了该实时产品与德国地学研究中心(GFZ)事后GBM产品的频率稳定性。利用本文算法与传统卡尔曼算法对两类产品进行预报,结果显示:CLK93产品BDS系统(C)、GPS系统(G)、GLONASS系统(R)、Galileo系统(E)30s和1min预报精度分别平均提升了8.50%、8.44%、7.20%、6.96%;GBM产品相应4个系统12h和24h预报精度分别平均提升了3.14%、3.53%、0.96%、10.01%。  相似文献   

7.
基于GPS单频接收机的精密单点定位研究   总被引:1,自引:0,他引:1  
郝明  王庆良 《测绘科学》2010,35(2):123-124,129
介绍了利用单频GPS接收机进行精密单点定位的数学模型及解算方案,并采用选权拟合法得到比较准确的状态参数初值及其方差-协方差,加快了卡尔曼滤波的收敛。算例结果表明,利用精密卫星星历及卫星钟改正数并采用单频观测值,半个小时后的定位精度可达1~2分米的水平。  相似文献   

8.
GNSS(global navigation satellite systems)系统时使用原子钟作为时间基准,相比使用晶振的GNSS接收机,其稳定度高出几个量级。GNSS系统间钟差相比接收机钟差具有更高的稳定度,如果可以充分利用此先验信息将有助于优化多GNSS系统的定位结果。分析如何充分利用系统间钟差更稳定这一先验信息,并测试引入这一先验信息对多系统单点定位结果的影响,推导了基于两种不同钟差估计方法的定位解算模型,给出了最小二乘和扩展卡尔曼滤波两种参数估计算法。通过比较不同模型和估计算法在静态和动态定位的实验结果,最小二乘法无法利用系统间钟差更稳定的特点改善定位精度;静态实验结果表明,扩展卡尔曼滤波自身有一定的降噪效果,若引入系统间钟差更稳定的先验信息,将更有利于减小噪声;动态实验结果表明,引入系统间钟差更稳定的先验信息可减弱扩展卡尔曼滤波的发散现象。  相似文献   

9.
Satellite clock bias estimation for iGPS   总被引:4,自引:0,他引:4  
The High Integrity GPS program seeks to provide enhanced navigation performance by combining conventional GPS with a communications and ranging broadcast from the Iridium® Communications System. Through clock and message aiding, it would enable existing GPS receivers to acquire and track in more challenging environments. As is the case for standard GPS, accurate and precise timing is key to performance. An approach is presented for estimating the bias of each Iridium satellite clock using satellite-to-ground and satellite-to-satellite measurements. The satellite clock bias estimates are based on a Kalman filter that incorporates code-type observations from the measurements at 10 s intervals. Filter parameters are set based on the expected behavior of the clocks, allowing for discontinuous bias and frequency adjustments due to ground commands. Typical results show the current filter to be accurate to within 200 ns while always meeting the initial system specification of half a microsecond.  相似文献   

10.
卫星钟差是影响卫星定位精度的重要误差源之一,而实时精密单点定位又要求卫星钟差实时更新。卫星钟差的解算可通过非差模型或历元差分模型实现,但非差模型涵盖较多的载波相位模糊度参数,相比消掉模糊度参数的历元差分模型,计算效率要慢许多。历元差分模型仅利用载波相位观测量就可获得高精度卫星钟差历元间差,恢复后的卫星钟差仍可达到一定精度水平。利用历元差分模型可实现北斗卫星钟差的实时解算,试验结果表明:通过滤波得到的卫星钟差历元间差精度优于0.02 ns,恢复后的卫星钟差精度优于0.25 ns.   相似文献   

11.
Summary The signals transmitted by Block II satellites of the Global Positioning System (GPS) can be degraded to limit the highest accuracy of the system (10 m or better point positioning) to authorized users. This mode of degraded operation is called Selective Availability (S/A). S/A involves the degradation in the quality of broadcast orbits and satellite clock dithering. We monitored the dithered satellite oscillator and investigated the effect of this clock dithering on high accuracy relative positioning. The effect was studied over short 3-meter and zero-baselines with two GPS receivers. The equivalent S/A effects for baselines ranging from 0 to >10,000 km can be examined with short test baselines if the receiver clocks are deliberately mis-synchronized by a known and varying amount. Our results show that the maximum effect of satellite clock dithering on GPS double difference phase residuals grows as a function of the clock synchronization error according to: S/A effect =0.04 cm/msec, and it increases as a function of baseline length like: S/A effect =0.014 cm/100 km. These are equations for maximum observed values of post-fit residuals due to S/A. The effect on GPS baselines is likely to be smaller than the 0.14 mm for a baseline separation of 100 km. We therefore conclude, for our limited data set, and for the level of S/A during our tests, that S/A clock dithering has negligible effect on all terrestrial GPS baselines if double difference processing techniques are employed and if the GPS receivers remain synchronized to better than 10 msec. S/A may constitute a problem, however, if accurate point processing is required, or if GPS receivers are not synchronized. We suggest and test two different methods to monitor satellite frequency offsets due to S/A. S/A modulates GPS carrier frequencies in the range of-2 Hz to +2 Hz over time periods of several minutes. The methods used in this paper to measure the satellite clock dither could be applied by the civilian GPS community to continuously monitor S/A clock dithering. The monitored frequencies may aid high accuracy point positioning applications in a postprocessing mode (Malys and Ortiz 1989), and differential GPS with poorly synchronized receivers (Feigl et al. 1991).  相似文献   

12.
研究了绕月卫星自主导航方法,提出了由星敏感器、紫外月球敏感器和测高仪组成的多源信息组合导航方案。将Unscented Kalman滤波(UKF)应用于非线性导航系统,采用信息融合技术设计了相关的联邦滤波算法,实现了系统的信息互补,完成了卫星轨道的最优估计。利用数学仿真对这种导航系统的有效性进行了验证,并与基于扩展Kal man滤波(EKF)的信息融合算法进行了比较。仿真结果表明,所提出的UKF融合算法具有良好的稳定性,可进一步提高导航系统的精度。  相似文献   

13.
Position information obtained from standard global positioning system (GPS) receivers has time variant errors. For effective use of GPS information in a navigation system, it is essential to model these errors. A new approach is presented for improving positioning accuracy using neural network (NN), fuzzy neural network (FNN), and Kalman filter (KF). These methods predict the position components’ errors that are used as differential GPS (DGPS) corrections in real-time positioning. Method validity is verified with experimental data from an actual data collection, before and after selective availability (SA) error. The result is a highly effective estimation technique for accurate positioning, so that positioning accuracy is drastically improved to less than 0.40 m, independent of SA error. The experimental test results with real data emphasize that the total performance of NN is better than FNN and KF considering the trade-off between accuracy and speed for DGPS corrections prediction.  相似文献   

14.
附加原子钟物理模型的PPP时间传递算法   总被引:3,自引:3,他引:0  
于合理  郝金明  刘伟平  田英国  邓科 《测绘学报》2016,45(11):1285-1292
传统精密单点定位(PPP)时间传递算法通常把接收机钟差当作相互独立的白噪声逐历元进行估计,而忽略了钟差参数历元间的相关性。针对这一问题,本文提出了一种附加原子钟物理模型的PPP时间传递算法。该算法通过利用Kalman滤波对高稳定度的原子钟钟差进行建模,拓展传统PPP时间传递模型中的接收机钟差参数,并给出了Kalman滤波过程噪声协方差和初始状态向量的确定方法。试验结果表明:该算法可以有效避免传统算法时间传递结果需要一定收敛时间的问题,使解算结果更加符合原子钟的物理特性,能够显著提高时间传递结果的精度和稳定性,可将单站时间传递精度平均提高58%,站间时间传递精度平均提高51%。  相似文献   

15.
卫星钟差预报在实时高精度导航定位中具有重要作用,Kalman滤波模型是预报卫星钟差的重要方法之一。为了进一步提高Kalman滤波模型预报卫星钟差的精度,本文提出了基于小波降噪的Kalman滤波模型预报卫星钟差。该模型使用小波降噪后数据,在保留Kalman滤波模型特点的基础上,明显地提高了短期卫星钟差预报精度。  相似文献   

16.
Due to the limited frequency stability and poor accuracy of typical quartz oscillators built-in GNSS receivers, an additional receiver clock error has to be estimated in addition to the coordinates. This leads to several drawbacks especially in kinematic applications: At least four satellites in view are needed for navigation, high correlations between the clock estimates and the up-coordinates. This situation can be improved distinctly when connecting atomic clocks to GNSS receivers and modeling their behavior in a physically meaningful way (receiver clock modeling). Recent developments in miniaturizing atomic clocks result in so-called chip-scale atomic clocks and open up the possibility of using stable atomic clocks in GNSS navigation. We present two different methods of receiver clock modeling, namely in an extended Kalman filter and a sequential least-squares adjustment for code-based GNSS navigation using three different miniaturized atomic clocks. Using the data of several kinematic test drives, the benefits of clock modeling for GPS navigation solutions are assessed: decrease in the noise of the up-coordinates by up to 69 % to 20 cm level, decrease in minimal detectable biases by 16 %, and elimination of spikes and subsequently decrease in large position errors (35 %). Hence, a more robust position is obtained. Additionally, artificial partial satellite outages are generated to demonstrate position solutions with only three satellites in view.  相似文献   

17.
18.
本文介绍了导航系统完好性的定义.论述了天文导航的技术方案。提出把天文导航应用于星间链路定位的解算和导航星座自主完好性检测的技术方案中,讨论了合理的完好性检测门限。研究了反馈模型中卡尔曼滤波的使用,得出了结论。  相似文献   

19.
首先给出典型的原子钟时差观测量模型,包括确定性部分(时差、频差、线性频漂和周期性波动项)、随机性部分(即原子钟噪声)和观测噪声;分析了各分量对应的Allan偏差的表达式。针对部分文献对Kalman滤波器估计原子钟状态原理描述不清晰的问题,描述了原子钟随机微分方程模型和各物理量的含义,从最优估计和低通滤波器两个角度阐述其原理。针对观测噪声过大、存在周期性波动等原因造成无法准确估计原子钟噪声强度的情况,提出了综合Kalman滤波器状态估计结果和Allan偏差图,估计原子钟噪声和观测噪声强度的方法;提出了3种不同的估计线性频漂幅度的方法,并通过实测数据相互验证;针对周期性波动在时差中不明显的问题,结合原子钟随机微分方程模型,提出了综合Kalman滤波器状态估计的结果和对数Allan偏差图估计周期性波动周期和幅度的方法。对两台国产氢钟的实测数据进行了验证,证明该方法物理原理清晰,操作简便易行,具有实用性。通过该方法可以外推得到所有平滑时间的Allan偏差估计值。  相似文献   

20.
利用X射线脉冲星观测量不仅能够为深空探测器提供稳定可靠的位置、速度和姿态信息,还能够对探测器上的原子钟进行长期误差校正。火星探测任务中,存在探测器飞行时间长,钟差随时间累积严重降低脉冲星自主定位系统的精度等问题。针对此,提出了一种环火探测器同步定位和授时方法,对钟差进行建模,将钟差模型参数纳入到滤波系统中,利用自适应扩展卡尔曼滤波器同时计算探测器的位置、速度和钟差模型参数。仿真实验表明,经滤波校正后的钟差保持在300 ns以内,探测器的位置和速度精度分别优于200 m和0.03 m/s,精度得到明显改善。  相似文献   

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