一种改进的基于 BDS 三频非差观测的周跳实时探测与修复模型

BDS三频观测条件下可以组合得到具有优良特性的虚拟载波观测量,有利于改善非差观测数据的周跳实时探测与修复。文中提出一种基于BDS三频非差数据的周跳实时探测与修复模型:首先,采用消电离层无几何HMW组合观测量探测和修复EWL周跳;然后,将经过修复的EWL观测量与WL组合消除几何相关项,忽略电离层延迟残差进而确定WL周跳;最后采用经过修复的WL观测量与NL组合形成无几何观测量,并通过优化载波相位组合确定电离层延迟的变化量以探测和计算NL周跳,并通过简单变换得到原始载波观测量的周跳值。通过实测BDS三频数据对模型可行性进行验证分析,结果表明,即使在30s的采样率以及电离层活动活跃条件下,该模型都可有效实时探测和修复各类周跳。     

BDS/GPS双频三差组合周跳探测与修复方法研究

针对BDS/GPS双差组合数据解算需要考虑观测数据周跳探测与周跳修复能力的问题,研究组合观测值周跳检测量公式模型,给出一种能够有效探测并修复周跳的BDS/GPS双频三差组合周跳探测与修复方法。实验数据结果表明,该方法利用三差后的无电离层组合残差和双频载波残差平均值做为周跳检测量从而能够有效探测出GPS卫星和北斗的GEO、MEO、IGSO卫星观测值中存在的周跳并修复,从而为BDS/GPS双差网解提供高质量、高可靠性的观测数据。     

削弱电离层影响的三频TurboEdit周跳处理方法

针对电离层活跃期或磁暴发生时,现有三频周跳探测方法难以正确探测与修复周跳的问题,借鉴双频TurboEdit思想,提出了能够削弱电离层延迟影响的三频TurboEdit方法。该算法中的三频无几何无电离层码相组合和两次历元差分后的相位无几何组合,均能有效削弱电离层延迟对周跳探测的影响。随后利用三频实测数据对本文算法进行了验证,试验结果表明该方法能够消除电离层延迟影响,实现电离层活跃观测条件下动态非差周跳的实时探测与修复。     

北斗三号卫星的周跳探测与修复算法

在高精度GNSS应用中,载波相位观测值中出现周跳问题直接影响到整周模糊度的解算及最终定位精度,针对北斗卫星导航系统三代卫星密集发射的现状,该文提出一种联合采用码伪距与相位伪距组合、MW组合和电离层残差组合进行北斗三号卫星双频数据周跳探测和修复的算法。该算法可以发挥单个组合优势有效进行周跳探测且能避免各自的探测盲区,联合3种组合观测量进行周跳值求解时,计算方法简单,可以直接取整得到周跳值。通过对北斗三号卫星双频实测数据的处理分析,验证了该算法能够准确地探测出所有周跳,并能够有效修复。     

GPS载波相位观测值中周跳探测与修复的研究

针对GPS载波相位定位中出现的周跳问题,提出一种新的周跳探测方法。基于非差相位观测值线性组合模式,以相位与伪距差法和电离层残差法相结合来探测与修复周跳。通过对同一组无周跳的数据采取人为加入周跳,比较两种周跳探测与修复方法的优缺点,以相位与伪距之差组合为辅助,检查大周跳,用电离层残差组合方法再对双频GPS数据进行进一步的周跳探测和修复。根据实例分析,验证该方法能够快速有效地探测并修复周跳,使双频载波相位法更具有实用性。     

双频组合法探测与修复周跳的补充

基于双频单站的探测与修复周跳的方法,把伪距历元差与相位历元差组合作为约束条件,利用双频载波相位观测值组合的方法联合进行周跳探测与修复,并主要针对周跳在频率比附近变化时此方法无法探测的缺点,根据具体实例的分析、总结,采用预先插入周跳法进行补充探测,并对产生的周跳进行了有效修复。     

一种INS辅助的PPP周跳探测方法

PPP/INS组合导航系统中,接收机载波相位观测值由于接收机高动态、卫星低仰角、信号被遮挡等原因,往往发生周跳。周跳不仅会影响PPP定位精度,而且可能会导致模糊度参数重新初始化以致数十分钟才能重新收敛。针对以上问题,本文提出利用惯性导航系统（INS）辅助PPP宽巷周跳探测的新策略,通过具有短时高精度的INS信息,消除宽巷组合中的站星几何位置,克服传统MW方法中码伪距噪声及多路径误差的影响。试验表明,INS辅助的宽巷周跳探测方法能够精确识别各种宽巷小周跳。将该方法与无几何距离（GF）组合方法相结合,可以实现对双频等周周跳和特殊周跳（5/4、9/7等）的探测,具有较高探测精度,并可应用于实时周跳探测。     

基于几何模型的惯性辅助PPP周跳修复与快速重新收敛

在复杂观测环境下,GNSS信号容易发生周跳和失锁现象,导致精密单点定位技术（PPP）模糊度重新初始化,影响定位精度及可靠性。本文基于PPP／SINS紧组合,提出了利用短时间内惯导递推的高精度位置信息辅助PPP周跳修复的几何模型。该模型采用原始观测值建立历元间差分方程,将周跳作为参数进行估计,而惯导提供的高精度位置作为带权的虚拟观测值参与平差解算,在固定周跳整数值后修复相位观测值,从而保持高精度的连续定位。以车载和机载两组数据分析了该方法的有效性,结果表明,引入惯性辅助能够显著加快PPP定位的重新收敛,实现周跳的准确修复。      

一种改进的周跳探测方法研究

提出一种基于相位伪距组合式的电离层残差周跳探测方法,该方法是对电离层残差法无法探测与修复特殊周跳组合的一种改进与补充,算法简单适用,能有效的探测出周跳并将周跳修复至8周以内。     

GPS动态观测数据的周跳探测与修复及其分析

从探测与修复周跳的观测值线性组合人手,分析非差方式下M-W组合和电离层残差组合对周跳的探测能力,探讨两种组合相结合的优越性.研究分析相结合算法对地面低动态数据和星载GPS高动态数据的适应能力,实验结果表明此算法对GPS双频动态观测数据的周跳探测、修复具有较好的适用性和实用性.     

A double-differenced cycle slip detection and repair method for GNSS CORS network

The difficulty to detect and repair cycle slip of carrier phase measurements is a key limit for continuously high accuracy of GNSS positioning and navigation services. We propose an automated cycle slip detection and repair method for data preprocessing of a CORS network. The method jointly uses double-differenced (DD) geometry-free (GF) combination and ionospheric-free observation corrected for the computed geometrical distance (IF-OMC) to estimate the cycle slips in dual-frequency observations. The DD GF combination, which is only affected by the ionospheric residual, can be used to detect cycle slips with high reliability except for special pairs such as (77, 60) on GPS L1/L2 frequencies. The detection principle of the IF-OMC observable is such that there is a large discontinuity related to the previous epoch when cycle slips occur at the present epoch. The disadvantages of these two combinations can be overcome employing the proposed detection method. The cycle slip pair (77, 60) has no effect on the GF combination, while a change of 14.65 m is derived from GPS L1/L2 observations using the IF-OMC algorithm. Using pre-determined station coordinates as precise values, we found that the accuracy of the DD IF-OMC combination was 18 mm for a 200-km CORS baseline. Therefore, cycle slips in dual-frequency observations can be correctly and uniquely determined using DD GF and IF-OMC equations. The proposed method was verified by adding simulated cycle slips in observations collected from the CORS network under a quiet ionosphere and shown to be effective. Moreover, the method was assessed with observations made during intense ionospheric activity, which generated extensive cycle slips. The results show that the algorithm can detect and repair all cycle slips apart from two exceptions relating to long data gaps.     

北斗三频非差观测值的电离层周跳探测与修复

针对历元间隔较大或电离层延迟较大的情况,采用两个无几何相位组合与一个最优无几何无电离层组合形成3个线性无关的探测量,将历元间高次差法引用到无几何相位组合探测量中,通过选取合适的探测阈值,使无几何相位组合能够正确探测到较大电离层影响情况下的不敏感周跳。此外,文中采用了一种特殊的无几何无电离组合观测量进行辅助修复,通过两次取整保证了周跳修复的准确性,避免了传统三频周处理中的搜索算法造成错误修复的问题,试验表明,文中算法可以正确探测与修复较大电离层影响情况下不同北斗卫星星座类型的所有小周跳组合以及不敏感周跳组合。     

利用改进的TurboEdit算法与Chebyshev多项式探测与修复周跳

根据利用TurboEdit方法对GPS观测数据进行周跳探测的特点,设计了固定弧段长度的滑动窗口拟合模型,对其中的Geometry-Free组合法进行改进;在探测出周跳后,利用最小二乘Chebyshev多项式拟合来修复周跳。实验结果表明,改进后的TurboEdit算法可以探测出等周的1周小周跳、等周的大周跳和连续的小周跳、大周跳,同时,最小二乘Chebyshev多项式拟合可以精确修复以上周跳对。     

基于多普勒辅助的电离层残差探测与修复周跳改进方法

针对典型周跳探测与修复方法中的电离层残差法当同一历元多个频点发生周跳时,无法准确探测及修复周跳的问题,提出了一种用多普勒辅助电离层残差法的周跳探测与修复的改进方法。基于实测及仿真数据,证明了该方法能够有效解决电离层残差法存在的上述问题,即使某一历元多个频点同时发生周跳,也可以准确探测周跳发生的位置、频点及相应数值,精度达到1周,有效提高了电离层残差法探测与修复周跳的准确性与可靠性。     

A new triple-frequency cycle slip detecting algorithm validated with BDS data

Triple-frequency global navigation satellite systems allow the introduction of additional linear observation combinations. We define two geometry-free phase combinations and one geometry-free pseudorange minus phase linear combination to detect and correct cycle slip in real time. At first, the optimal BDS (BeiDou System) triple-frequency geometry-free phase combinations are selected for cycle slip detection. Then, a detailed analysis of the cycle slip detection is performed by examining whether some special cycle slip groups cannot be discovered by the selected combinations. Since there still remain some cycle slip groups undetectable by the two geometry-free phase combinations, we add a pseudorange minus phase linear combination which is linearly independent with these two phase combinations, to be sure that all the cycle slips can be detected. After that, an effective decorrelation search based on LAMBDA and least squares minimum principle is applied to calculate and determine the cycle slips. The method has been tested on triple-frequency undifferenced BDS data coming from a benign observation environment. Results show that the proposed method is able to detect and repair all the small cycle slips in the three carriers.     

一种改进的星载GPS周跳探测与修复方法

周跳探测与修复是星载GPS数据预处理的重要内容。首先使用SWARM卫星实测数据对TurboEdit算法的有效性进行了分析,针对算法在观测噪声较大情况下无法有效探测小周跳的问题,提出了一种改进算法。该算法利用载波相位观测值对伪距组合观测值进行平滑,降低了观测噪声对宽巷模糊度的影响,提高了周跳探测能力。实验结果表明,改进算法能够有效提高小周跳的探测能力。      

星地双向时差测量系统周跳探测与修复算法

随着空间时间频率基准的精度越来越高,需要与之匹配的空间时频传递技术. 基于载波相位的星地双向时差测量方法可以实现更高的时间频率传递精度,但对于复杂的星地环境,由于航天器飞行动态高,时频传递链路的传输频率高,载波多普勒效应大,更容易出现粗差和周跳. 基于此,研究一种适合高动态环境下的星地双向时差测量系统载波相位周跳探测与修复方法,提出一种适用于三频组合模式的双向周跳探测与修复方法. 该方法联合双频码相 (MW)组合法可以实现不同类型周跳的探测与修复,对于上下行三条微波链路均可探测出周跳的存在并实现毫米级周跳修复精度. 进一步对基于载波相位测量的星地双向时差测量系统的星地时间同步性能进行分析,在经过周跳探测与修复,以及链路时延数据处理,其星地时间同步精度优于0.3×10–12 s.      

Cycle slip detection and repair of undifferenced single-frequency GPS carrier phase observations

Cycle slip detection and repair is an important issue in the GPS data processing. Different methods have been developed to detect and repair cycle slips on undifferenced , single- or double-differenced observations. The issue is still crucial for high-precision GPS positioning, especially for the undifferenced GPS observations. A method is proposed to fix cycle slips based on the generalized likelihood ratio (GLR) test. The method has a good performance on cycle slip fixing of undifferenced carrier phase observations on individual frequencies, either on L1 or on L2, without making a linear combination among the observables. The functional model is a piecewise cubic curve fitted to a number of consecutive data using the least squares cubic spline approximation (LS-CSA). For fixing the cycle slips, an integer estimation technique is employed to determine the integer values from the float solution. The performance of the proposed method is then compared with the existing two methods using simulated data. The results on a few GPS data sets with sampling rate of 1 Hz or higher confirm that this method can detect and correct all simulated cycle slips regardless of the size of the cycle slip or the satellite elevation angle. The efficacy of the method is then investigated on the GPS data sets with lower sampling rates of 5, 10, and 30 s. The results indicate that the proposed method always performs the best for the data sets considered. This is thus an appropriate method for cycle slip detection and repair of single-frequency GPS observations.     

GPS周跳探测及修复的小波变换法

利用小波分析方法对常用的GPS周跳检测量进行了周跳探测，获得了小波方法所能探测到的最小周跳值，并与高次差法进行了时比，提出了利用小波变换探测出周跳后如何直接进行周跳修复的方法。计算结果表明，该方法是可行的。