利用GPS监测电离层总电子含量的季节性变化   总被引：3，自引：0，他引：3  

蔡昌盛  高井祥  李征航 《武汉大学学报(信息科学版)》2006,31(5):451-454

利用Georgiadiou电离层模型计算了GPS系统硬件延迟，从而由双频伪距观测值获取绝对电离层总电子含量值。利用北京IGS站的GPS观测数据分别计算了2000年和2004年各个不同月份的总电子含量值，对两年各月份的总电子含量进行多项式拟合，发现总电子含量的季节性变化趋势一致。  相似文献   

太阳活动高峰年山东区域电离层时空变化研究   总被引：1，自引：1，他引：0  

史坤朋  郭金运  董正华  周长志 《测绘科学》2017,(12):32-38

2012年为太阳活动高峰年份,为了研究太阳活动高年区域电离层的变化特征,该文选取了山东区域内的SDCORS站点,构建了山东区域垂直电子含量(VTEC)球谐格网模型,对该年山东区域电离层时空变化规律进行分析。实验研究表明,在空间变化上山东区域电离层表现出较强的纬度相关性,出现了明显的分层现象。同时给出了山东电离层在时间上呈现出的时段变化、日变化、月变化、季节变化,发现VTEC受太阳活动影响较大,除了存在明显的单峰和双峰结构外,该年还发生了半年度异常现象。  相似文献   

基于格网的GPS/ BD-2组合系统电离层VTEC模型研究     

刘军  柴洪洲  范龙  王海栋 《测绘科学》2011,36(3):34-36

本文利用中国地壳运动观测网络的GPS数据,兼顾卫星发射频率硬件延迟影响,模拟了BD-2系统的电离层VTEC,并建立GPS/ BD-2组合系统的VTEC格网模型,实验结果证实了该模型在电离层延迟短时间预报上的有效性.  相似文献   

Anomalies in broadcast ionospheric coefficients recorded by GPS receivers over the past two solar cycles (1992–2013)     

Zhizhao Liu  Zhe Yang 《GPS Solutions》2016,20(1):23-37

The anomaly phenomenon of broadcast ionospheric model coefficients of the Global Positioning System (GPS) is revealed after analyzing the navigation file data collected from all the IGS (International GNSS Service) stations worldwide over a 22-year period (1992–2013). GPS broadcast ionospheric coefficients widely used by many single-frequency users to correct the ionosphere errors for numerous GPS applications are usually believed to have only one set/version per day. However, it is found that GPS receivers from the IGS network can report as many as eight sets/versions of ionospheric coefficients in a day. In order to investigate the possible factors for such an anomalous phenomenon, the relationship between the number of coefficient sets and solar cycle, the receiver geographic locations, and receiver types/models are analyzed in detail. The results indicate that most of the coefficients show an annual variation. During the active solar cycle period from mid-1999 to mid-2001, all of the coefficients extracted from IGS navigation files behaved anomalously. Our analysis shows that the anomaly is also associated with GPS receiver types/models. Some types/models of GPS receivers report one set/version of ionospheric coefficients daily, while others report multiple sets. Our analysis also suggests that the ionospheric coefficient anomaly is not necessarily related to ionospheric scintillations. No correlation between the anomaly and geographic location of GPS receivers has been found in the analysis. Using the ionospheric coefficient data collected from 1998 to 2013, the impact of ionospheric coefficient anomaly on vertical total electron content (VTEC) calculation using the Klobuchar model has been evaluated with respect to the Global Ionospheric Maps generated by the Center for Orbit Determination in Europe. With different sets of coefficients recorded on the same day, the resulting VTEC values are dramatically different. For instance on June 1, 2000, the largest VTEC at one of our test stations can be as large as 153.3 TECu (total electron content unit) using one set of coefficients, which is 16.36 times larger than the smallest VTEC of 9.37 TECu computed from using another set of coefficients.  相似文献   

用双频GPS观测值建立小区域电离层延迟模型研究   总被引：19，自引：4，他引：19  

张小红  李征航  蔡昌盛 《武汉大学学报(信息科学版)》2001,26(2):140-143,159

介绍了用双频GPS伪距观测值建立区域性电离层模型的基本原理和方法。模型的初步结果表明，该电离层模型建立后，可为性病区域的广大单频用户提供在天顶方向优于0．4m精度的电离层延迟改正量，且具有30min以内天顶方向优于0．4m的预报精度。  相似文献   

Ionospheric effects on differential GPS applications during auroral substorm activity     

《ISPRS Journal of Photogrammetry and Remote Sensing》1999,54(4):279-288

The use of the Global Positioning System (GPS) technology has become increasingly incorporated into airborne remote sensing applications over the past decade. While GPS positioning results may prove adequate for several applications at present, users should expect to experience degraded positioning accuracies over the next few years due to auroral substorm activity. Such degraded accuracies will arise from increased spatial decorrelation of ionosphere range delay errors in differential GPS applications, as the ionospheric activity increases during solar maximum. In this paper, the spatial decorrelation of ionospheric range delay is estimated during a substorm event and compared with “quiet” time values. Positional errors (in both vertical and horizontal measurements) in the range 60–80 cm RMSE were observed during a 1997 substorm event that is representative of the activity anticipated at solar maximum around the year 2000.  相似文献   

确定卫星与接收机信号延迟偏差的新方法及其应用   总被引：6，自引：1，他引：5  

许才军  陈永奇  刘焱雄 《测绘学报》1999,28(2):162-171

单频ＧＰＳ接收机用户通常需要进行电离层延迟改正,电离层延迟改正量通常来源于电离层延迟改正模型或双频ＧＰＳ基准站信息,后者即是利用双频ＧＰＳ观测值估计电子含量总数,求解电离层延迟改正量。利用双频ＧＰＳ观测值估计电子含量总数,一个关键总是是去掉卫星与接收信号延迟偏差。  相似文献   

Multi-technique comparisons of 10?years of wet delay estimates on the west coast of Sweden   总被引：3，自引：2，他引：1  

T. Ning  R. Haas  G. Elgered  U. Willén 《Journal of Geodesy》2012,86(7):565-575

We present comparisons of 10-year-long time series of the atmospheric zenith wet delay (ZWD), estimated using the global positioning system (GPS), geodetic very long baseline interferometry (VLBI), a water vapour radiometer (WVR), radiosonde (RS) observations, and the reanalysis product of the European Centre for Medium-Range Weather Forecasts (ECMWF). To compare the data sets with each other, a Gaussian filter is applied. The results from 10 GPS–RS comparisons using sites in Sweden and Finland show that the full width at half maximum at which the standard deviation (SD) is a minimum increases with the distance between each pair. Comparisons between three co-located techniques (GPS, VLBI, and WVR) result in mean values of the ZWD differences at a level of a few millimetres and SD of less than 7?mm. The best agreement is seen in the GPS–VLBI comparison with a mean difference of ?3.4?mm and an SD of 5.1?mm over the 10-year period. With respect to the ZWD derived from other techniques, a positive bias of up to ~7?mm is obtained for the ECMWF reanalysis product. Performing the comparisons on a monthly basis, we find that the SD including RS or ECMWF varies with the season, between 3 and 15?mm. The monthly SD between GPS and WVR does not have a seasonal signature and varies from 3 to 7?mm.  相似文献   

Computation of GPS P1–P2 Differential Code Biases with JASON-2     

Gilles Wautelet  Sylvain Loyer  Flavien Mercier  Félix Perosanz 《GPS Solutions》2017,21(4):1619-1631

GPS Differential Code Biases (DCBs) computation is usually based on ground networks of permanent stations. The drawback of the classical methods is the need for the ionospheric delay so that any error in this quantity will map into the solution. Nowadays, many low-orbiting satellites are equipped with GPS receivers which are initially used for precise orbitography. Considering spacecrafts at an altitude above the ionosphere, the ionized contribution comes from the plasmasphere, which is less variable in time and space. Based on GPS data collected onboard JASON-2 spacecraft, we present a methodology which computes in the same adjustment the satellite and receiver DCBs in addition to the plasmaspheric vertical total electron content (VTEC) above the satellite, the average satellite bias being set to zero. Results show that GPS satellite DCB solutions are very close to those of the IGS analysis centers using ground measurements. However, the receiver DCB and VTEC are closely correlated, and their value remains sensitive to the choice of the plasmaspheric parametrization.  相似文献   

Joint estimation of vertical total electron content (VTEC) and satellite differential code biases (SDCBs) using low-cost receivers     

Baocheng Zhang  Peter J. G. Teunissen  Yunbin Yuan  Hongxing Zhang  Min Li 《Journal of Geodesy》2018,92(4):401-413

Vertical total electron content (VTEC) parameters estimated using global navigation satellite system (GNSS) data are of great interest for ionosphere sensing. Satellite differential code biases (SDCBs) account for one source of error which, if left uncorrected, can deteriorate performance of positioning, timing and other applications. The customary approach to estimate VTEC along with SDCBs from dual-frequency GNSS data, hereinafter referred to as DF approach, consists of two sequential steps. The first step seeks to retrieve ionospheric observables through the carrier-to-code leveling technique. This observable, related to the slant total electron content (STEC) along the satellite–receiver line-of-sight, is biased also by the SDCBs and the receiver differential code biases (RDCBs). By means of thin-layer ionospheric model, in the second step one is able to isolate the VTEC, the SDCBs and the RDCBs from the ionospheric observables. In this work, we present a single-frequency (SF) approach, enabling the joint estimation of VTEC and SDCBs using low-cost receivers; this approach is also based on two steps and it differs from the DF approach only in the first step, where we turn to the precise point positioning technique to retrieve from the single-frequency GNSS data the ionospheric observables, interpreted as the combination of the STEC, the SDCBs and the biased receiver clocks at the pivot epoch. Our numerical analyses clarify how SF approach performs when being applied to GPS L1 data collected by a single receiver under both calm and disturbed ionospheric conditions. The daily time series of zenith VTEC estimates has an accuracy ranging from a few tenths of a TEC unit (TECU) to approximately 2 TECU. For 73–96% of GPS satellites in view, the daily estimates of SDCBs do not deviate, in absolute value, more than 1 ns from their ground truth values published by the Centre for Orbit Determination in Europe.  相似文献   

全球定位系统(GPS)技术的最新进展第五讲利用双频GPS观测值建立电离层延迟模型   总被引：8，自引：2，他引：8  

李征航  赵晓峰  蔡昌盛 《测绘信息与工程》2003,28(1):41-44

介绍了电离层的概况，GPS信号在电离层中的传播，电离层改正模型以及利用GPS双频观测值来建立电离层延迟或VTEC模型的原理、方法和结果。  相似文献   

Eye on the Ionosphere: The Correlation between Solar 10.7 cm Radio Flux and Ionospheric Range Delay     

Patricia H. Doherty  John A. Klobuchar  Joseph M. Kunches 《GPS Solutions》2000,3(4):75-79

Patricia Doherty joins the regular contributors of this column to discuss the correlation between measurements of solar 10.7 cm radio flux and ionospheric range delay effects on GPS. Mrs. Doherty has extensive experience in the analysis of ionospheric range delays from worldwide systems and in the utilization and development of analytical and theoretical models of the Earth's ionosphere. Ionospheric range delay effects on GPS and other satellite ranging systems are directly proportional to the Total Electron Content (TEC) encountered along slant paths from a satellite to a ground location. TEC is a highly variable and complex parameer that is a function of geographic location, local time, season, geomagnetic activity, and solar activity. When insufficiently accounted for, ionospheric TEC can seriously limit the performance of satellite ranging applications. Since the ionosphere is a dispersive medium, dual-frequency Global Positoning System (GPS) users can make automatic corrections for ionospheric range delay by computing the apparent difference in the time delays between the two signals. Single-frequency GPS users must depend on alternate methods to account for the ionospheric range delay. Various models of the ionosphere have been used to provide estimates of ionospheric range delay. These models range from the GPS system's simple eight-coefficient algorithm designed to correct for approximately 50% rms of the TEC, to state-of-the-art models derived from physical first principles, which can correct for up to 70 to 80% rms of the TEC but at a much greater computational cost. In an effort to improve corrections for the day-to-day variability of the ionosphere, some attempts have been made to predict the TEC by using the daily values of solar 10.7 cm radio flux (F_10,7). The purpose of this article is to show that this type of prediction is not useful due to irregular, and sometimes very poor, correlation between daily values of TEC and F_10.7. Long-term measurements of solar radio flux, however, have been shown to be well correlated with monthly mean TEC, as well as with the critical frequency of the inonospheric F2 region (foF2), which is proportional to the electron density at the peak of the ionospheric F2 region. ? 2000 John Wiley & Sons, Inc.  相似文献   

两种区域电离层拟合模型比较研究     

范叹奇  施闯  刘科  章红平  刘根 《测绘信息与工程》2008,33(6):8-9

建立了单基准站和多基准站的三角级数模型和多项式模型,设计了利用邻近站数据进行两种模型内外符合精度检验的方法,分析了两种模型在精度方面的差异。  相似文献   

基于GPS数据的地震前电离层TEC异常研究   总被引：2，自引：0，他引：2  

孟泱  王泽民  鄂栋臣 《武汉大学学报(信息科学版)》2008,33(1):81-84

选取印度洋区域7个IGS站,运用2004年12月26日印度洋地震前后共计25 d的GPS观测数据,计算出高时空分辨率的VTEC.综合考虑了太阳和地磁活动参数,运用统计分析的方法,详尽阐释了地震发生前TEC减小的电离层异常现象.  相似文献   

双向相位平滑伪距的硬件延迟解算研究     

房成贺  陈俊平  兰孝奇 《测绘科学》2018,(3):13-18

针对利用GPS观测数据提取TEC过程中最主要的误差来源硬件延迟问题,该文为了获取高精度TEC,在对双频观测数据处理时,改进了基于Hatch滤波的相位平滑伪距算法的使用方法,即双向平滑,取得较好的效果。研究采用了VTEC多项式和球冠谐分析模型来进行区域电离层建模及硬件延迟解算,经比较模型解算的硬件延迟与IGS发布值最大差异不超过1ns,其中VTEC多项式模型解80%差异值小于0.5ns,球冠谐函数模型解所有差异值均小于0.5ns。  相似文献   

利用GPS观测值监测电离层的时空变化   总被引：1，自引：0，他引：1       下载免费PDF全文

寇瑞雄  李仲勤  高志钰 《全球定位系统》2018,43(4):36-41

研究电离层时空变规律对卫星导航、航空航天和通讯等具有重要价值。文中利用IGS站提供的GPS双频观测数据,采用区域电离层模型估计GPS系统硬件延迟,从而计算绝对电离层总电子含量。在时间尺度上,选择COR1站的2012年、2015年和2017年的数据进行时间变化分析,结果表明,电离层总电子含量在时间上呈现出周日变化、月变化和季节性变化。在空间方面,选择了经度相差较小、纬度方向分布均匀的CRO1、BRMU、UNBJ和QIKI四个IGS站进行分析,结果表明在纬度方向具有明显的单峰效应,随着纬度的增大电离层总电子含量呈现减小趋势。   相似文献   

Ocean tide loading (OTL) displacements from global and local grids: comparisons to GPS estimates over the shelf of Brittany, France   总被引：1，自引：0，他引：1  

Stavros A. Melachroinos  R. Biancale  M. Llubes  F. Perosanz  F. Lyard  M. Vergnolle  M. -N. Bouin  F. Masson  J. Nicolas  L. Morel  S. Durand 《Journal of Geodesy》2008,82(6):357-371

In this paper we examine OTL displacements detected by GPS stations of a dedicated campaign and validate ocean tide models. Our area of study is the continental shelf of Brittany and Cotentin in France. Brittany is one of the few places in the world where tides provoke loading displacements of ∼10–12 cm vertically and a few cm horizontally. Ocean tide models suffer from important discrepancies in this region. Seven global and regional ocean tide models were tested: FES2004 corrected for K2, TPXO.7.0, TPXO.6.2, GOT00.2, CSR4.0, NAO.99b and the most recent regional grids of the North East Atlantic (NEA2004). These gridded amplitudes and phases of ocean tides were convolved in order to get the predicted OTL displacements using two different algorithms. Data over a period of 3.5 months of 8 GPS campaign stations located on the north coast of Brittany are used, in order to evaluate the geographical distribution of the OTL effect. We have modified and implemented new algorithms in our GPS software, GINS 7.1. GPS OTL constituents are estimated based on 1-day batch solutions. We compare the observed GPS OTL constituents of M₂, S₂, N₂ and K₁ waves with the selected ocean tide models on global and regional grids. Large phase-lag and amplitude discrepancies over 20° and 1.5 cm in the vertical direction in the semi-diurnal band of M₂ between predictions and GPS/models are detected in the Bay of Mont St-Michel. From a least squares spectral analysis of the GPS time-series, significant harmonic peaks in the integer multiples of the orbital periods of the GPS satellites are observed, indicating the existence of multipath effects in the GPS OTL constituents. The GPS OTL observations agree best with FES2004, NEA2004, GOT00.2 and CSR4.0 tide models.  相似文献   

区域卫星导航系统硬件延迟解算   总被引：1，自引：0，他引：1  

吴晓莉  平劲松  刘利  邢楠 《武汉大学学报(信息科学版)》2011,36(10):1218-1221

从区域卫星导航系统的实际情况出发,针对我国星座和地面站分布的特点,提出了区别于GPS的硬件延迟解算策略。首次利用实测数据分析论证了该解算策略,根据解算结果对卫星的TGD参数出厂标定值和接收机IFB参数进行修正。修正之前电离层14参模型解算内符合精度只有50%,修正之后达到70%。  相似文献   

基于重庆CORS网的电离层VTEC插值研究   总被引：1，自引：0，他引：1  

崔书珍  周金国  李天和  冯大福 《测绘科学技术学报》2016,(2):116-120

通过处理重庆CORS网的5个基准站观测数据,获得5个基准站上空电离层垂直总电子含量(VTEC)。利用其中的4个测站上空的VTEC采用克里金插值和反距离加权插值内插出另外一个测站上空VTEC。将插值结果及广义三角级数函数模型计算的电离层VTEC与实测VTEC进行比较,发现克里金插值和反距离加权插值的精度比广义三角级数函数计算的精度更高,更稳定;且克里金插值精度高于反距离加权插值。  相似文献   

利用双频GPS数据研究区域电离层TEC变化规律     

SUN Zheng-ming  WANG Jian  GAO Jing-xiang 《测绘学院学报》2008,(3)

利用GPS双频观测数据分析了仪器偏差对计算电离层TEC的影响,结果表明忽略仪器偏差的影响不能正确反映测站上空电离层总电子含量的变化规律。验证了短期内仪器偏差的稳定性,并在此基础上研究了2005年太阳活动低峰年区域电离层VTEC的周年变化规律,揭示了电离层VTEC半年变化、季节性变化及冬季异常等现象。  相似文献