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GEO卫星区域电离层监测分析 总被引:4,自引:1,他引:3
由于GEO卫星的静地特性,由双频观测数据获取的穿刺点垂直总电子含量(VTEC)可以充分反映电离层的时域变化,而根据地面监测站的分布,可以进一步获取VTEC的空域变化.分析根据区域卫星导航系统观测数据计算VTEC的精度,理论分析表明VTEC精度优于2 TECU.根据实测数据计算分析我国高、中、低纬度不同穿刺点电离层平时、磁暴期间的周日变化特性和2011年全年变化特性,并与IGS全球电离层图(GIM)的穿刺点插值结果进行分析比较.结果表明,两者在电离层周日和全年变化趋势上具有很好的一致性,但磁暴期间我国低纬度地区GIM误差的峰值可达29TECU,2011年全年评估结果GIM误差标准差为2~8 TECU.根据2011年的观测结果,电离层VTEC呈现出明显的半年异常现象.区域卫星导航系统为我国的电离层监测尤其是空间天气期间的电离层监测提供了新的支持. 相似文献
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利用GPS电离层探测技术分析了2010-08-01太阳风暴对全球电离层VTEC造成的扰动异常影响。受朝向地球的日冕物质抛射影响,08-03首先对北美地区电离层VTEC产生扰动异常,最大值达到15TECu。由于地球自转,发生电离层VTEC异常集中的区域会随太阳直射点向西移动,一般发生于其所在区域的地方时13:00~17:00。另外,还分析了此次太阳风暴对GPS观测数据质量及电离层高阶项误差的影响。结果表明,此次太阳风暴期间,GPS观测数据质量并未受到明显的影响,但使得L1、L2载波的电离层高阶项误差增大,误差影响达到cm级。 相似文献
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电离层延迟误差是单频GPS实时/事后定位误差的一个重要来源,目前尚无有效的方法来削弱其影响。针对这一状况,该文首先介绍了单频GPS改正电离层延迟误差的常用方法,通过分析说明了电离层格网数据能够有效改善单频GPS实时/事后定位误差。给出了电离层格网数据的建立、预报方法,并详细介绍了刺入点地心经纬度VTEC值的计算方法、四点格网法内插刺入点天顶方向的总电子含量以及单层模型投影函数。结合算例,分析比较了不同类型电离层改正数据与卫星星历数据对单频GPS实时/事后定位精度的影响。实验结果表明,利用电离层格网预报数据能够显著改善单频GPS的实时/事后导航定位精度,对提高单频GPS定位精度具有一定实用价值。 相似文献
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电离层总电子含量时空特征分析及分区建模 总被引:1,自引:0,他引:1
利用地统计方法研究了全球VTEC时空分区特征,提出了IONEX单天产品发布的改进策略和VTEC时空分区建模方法,包括组合函数与IRI2007模型背景场建模方法。纬度10°~70°、经度60°~180°范围内单天VTEC分区建模与结果分析表明,分区建模极大地降低了模型的复杂性。上述两种方法均可得中低纬分区B13约为高纬分区A23中误差(2~3TECU)的2倍,验证了顾及VTEC时空特征分区建模的有效性。 相似文献
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廖章回吴北平申兴林闵敏 《测绘科学》2018,(9):40-45
针对电离层延迟对导航定位精度的影响,该文利用IGS提供的2012—2015年的电离层VTEC数据,基于时序分析、快速傅里叶分析和线性回归分析方法,研究了广西及周边地区电离层的时空变化,结合相应的太阳、地磁活动数据分析太阳活动、地磁活动与电离层的相关性。结果显示:广西及周边地区电离层VTEC值在纬向上随纬度升高而降低,在经向上几乎不变;探测得到VTEC具有365.7天的年周期和182.9天的半年周期;无论在太阳活动高、低年,VTEC春季达最大值,2014年和2015年出现冬季异常现象;VTEC变化与太阳长期活动存在较好相关性,相关系数在0.57左右;VTEC在地磁活动高发期时与Dst有较好的相关性,相关系数达0.52。 相似文献
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针对电离层延迟对导航定位精度的影响,该文利用IGS提供的2012—2015年的电离层VTEC数据,基于时序分析、快速傅里叶分析和线性回归分析方法,研究了广西及周边地区电离层的时空变化,结合相应的太阳、地磁活动数据分析太阳活动、地磁活动与电离层的相关性。结果显示:广西及周边地区电离层VTEC值在纬向上随纬度升高而降低,在经向上几乎不变;探测得到VTEC具有365.7天的年周期和182.9天的半年周期;无论在太阳活动高、低年,VTEC春季达最大值,2014年和2015年出现冬季异常现象;VTEC变化与太阳长期活动存在较好相关性,相关系数在0.57左右;VTEC在地磁活动高发期时与Dst有较好的相关性,相关系数达0.52。 相似文献
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基于原始观测值的单频精密单点定位算法 总被引:1,自引:0,他引:1
研究了一种基于GPS原始观测值的单频PPP算法。该算法通过增加电离层延迟先验信息、空间和时间约束的虚拟观测方程,将电离层延迟当作未知参数与其他定位参数一并进行估计来高效修正电离层延迟误差。通过使用全球178个IGS站1d的实测数据对本算法的收敛速度、定位精度和电离层VTEC的精度进行检验与分析。结果表明,该算法的收敛速度和稳定性均得到了改善,其静态单频单天PPP解的精度可达2~3cm、模拟动态单频单天PPP解的精度可达2~3dm,并且单频PPP与双频PPP提取的电离层总电子含量平均偏差小于5个TECU,可作为一种附属定位产品使用。 相似文献
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利用2008-2015年(第24太阳活动周)中国地壳运动监测网络(CMONOC)武汉站(30.5°N,114.4°E)GPS双频接收机监测的垂直总电子含量(VTEC)数据,分析电离层VTEC变化特性,并讨论VTEC与太阳活动的相关性.结果表明,VTEC估值周日变化在14:00-16:00LT左右达到最大值;同时,电离层VTEC也表现出明显的逐日变化特性,特别是在VTEC峰值处呈现较大差异.在太阳活动高年(2011-2015),VTEC变化呈现明显的双峰结构,即所谓的"半年异常"现象,春季峰值大于秋季峰值,"冬季异常"也更为明显.在各个季节(除春季外),VTEC与F10.7p的相关性最好,与F10.7的相关性次之,与太阳黑子数(SSN)的相关性稍弱;秋季VTEC与太阳活动的相关性最好(MaxF10.7p=0.92232,MaxSSN=0.85575),冬季VTEC与太阳活动的相关性最差(MinF10.7p=0.79028,MinSSN=0.72703). 相似文献
9.
李炎寅 《测绘与空间地理信息》2017,(12):213-215
为了提高接收机码间偏差的计算效率和精度,利用CODE中心发布的全球VTEC地图和卫星码间偏差,通过内"预测-校正"法快速解算接收机码间偏差,并结合VTEC多项式对内插结果进行误差项改正。新算法解算的码间偏差与IGS发布的数据差值基本维持在0.2 ns以内,表明该算法计算精度较高,且效率明显高于传统方法。 相似文献
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Real-Time Precise Point Positioning (RTPPP) with raw observations and its application in real-time regional ionospheric VTEC modeling 总被引:1,自引:0,他引:1
Precise Point Positioning (PPP) is an absolute positioning technology mainly used in post data processing. With the continuously increasing demand for real-time high-precision applications in positioning, timing, retrieval of atmospheric parameters, etc., Real-Time PPP (RTPPP) and its applications have drawn more and more research attention in recent years. This study focuses on the models, algorithms and ionospheric applications of RTPPP on the basis of raw observations, in which high-precision slant ionospheric delays are estimated among others in real time. For this purpose, a robust processing strategy for multi-station RTPPP with raw observations has been proposed and realized, in which real-time data streams and State-Space-Representative (SSR) satellite orbit and clock corrections are used. With the RTPPP-derived slant ionospheric delays from a regional network, a real-time regional ionospheric Vertical Total Electron Content (VTEC) modeling method is proposed based on Adjusted Spherical Harmonic Functions and a Moving-Window Filter. SSR satellite orbit and clock corrections from different IGS analysis centers are evaluated. Ten globally distributed real-time stations are used to evaluate the positioning performances of the proposed RTPPP algorithms in both static and kinematic modes. RMS values of positioning errors in static/kinematic mode are 5.2/15.5, 4.7/17.4 and 12.8/46.6 mm, for north, east and up components, respectively. Real-time slant ionospheric delays from RTPPP are compared with those from the traditional Carrier-to-Code Leveling (CCL) method, in terms of function model, formal precision and between-receiver differences of short baseline. Results show that slant ionospheric delays from RTPPP are more precise and have a much better convergence performance than those from the CCL method in real-time processing. 30 real-time stations from the Asia-Pacific Reference Frame network are used to model the ionospheric VTECs over Australia in real time, with slant ionospheric delays from both RTPPP and CCL methods for comparison. RMS of the VTEC differences between RTPPP/CCL method and CODE final products is 0.91/1.09 TECU, and RMS of the VTEC differences between RTPPP and CCL methods is 0.67 TECU. Slant Total Electron Contents retrieved from different VTEC models are also validated with epoch-differenced Geometry-Free combinations of dual-frequency phase observations, and mean RMS values are 2.14, 2.33 and 2.07 TECU for RTPPP method, CCL method and CODE final products, respectively. This shows the superiority of RTPPP-derived slant ionospheric delays in real-time ionospheric VTEC modeling. 相似文献
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气象模型GPT和GPT2均可用于获取测站的气压、气温等气象要素,对计算对流层延迟具有重要作用并在高精度的GPS数据分析中被广泛使用。GPT2对GPT模型精度的改进在很多文献中已经得到验证,但是目前没有相关文献对采用这两种模型获得的坐标时间序列的差异进行详尽的分析。本文分别利用气象模型GPT和GPT2处理相同的连续观测站数据,发现气压值偏差的季节性变化导致测站垂向位置偏差也产生季节性变化,是测站垂向位置“伪”年周变化信号的来源之一;同时,模型之间的气压值偏差对垂向位置的影响与测站纬度相关,表现为先验天顶延迟偏差传递进垂向位置偏差的比例随测站纬度增加而增大。 相似文献
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Testing of global pressure/temperature (GPT) model and global mapping function (GMF) in GPS analyses 总被引:1,自引:1,他引:0
J. Kouba 《Journal of Geodesy》2009,83(3-4):199-208
Several sources of a priori meteorological data have been compared for their effects on geodetic results from GPS precise point positioning (PPP). The new global pressure and temperature model (GPT), available at the IERS Conventions web site, provides pressure values that have been used to compute a priori hydrostatic (dry) zenith path delay z h estimates. Both the GPT-derived and a simple height-dependent a priori constant z h performed well for low- and mid-latitude stations. However, due to the actual variations not accounted for by the seasonal GPT model pressure values or the a priori constant z h, GPS height solution errors can sometimes exceed 10 mm, particularly in Polar Regions or with elevation cutoff angles less than 10 degrees. Such height errors are nearly perfectly correlated with local pressure variations so that for most stations they partly (and for solutions with 5-degree elevation angle cutoff almost fully) compensate for the atmospheric loading displacements. Consequently, unlike PPP solutions utilizing a numerical weather model (NWM) or locally measured pressure data for a priori z h, the GPT-based PPP height repeatabilities are better for most stations before rather than after correcting for atmospheric loading. At 5 of the 11 studied stations, for which measured local meteorological data were available, the PPP height errors caused by a priori z h interpolated from gridded Vienna Mapping Function-1 (VMF1) data (from a NWM) were less than 0.5 mm. Height errors due to the global mapping function (GMF) are even larger than those caused by the GPT a priori pressure errors. The GMF height errors are mainly due to the hydrostatic mapping and for the solutions with 10-degree elevation cutoff they are about 50% larger than the GPT a priori errors. 相似文献
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GPS定位中的对流层模型分析 总被引:1,自引:0,他引:1
系统地分析对流层延迟特性在GPS导航中造成的定位误差,并主要介绍目前卫星定位领域主要应用的一些对流层折射修正模型。基于霍普尔德模型和萨斯塔莫宁模型,提出一种在缺少实测气象参数条件下,使用的简单对流层延迟修正模型。利用Matlab仿真软件对静态和动态接收机实测数据进行分析。结果表明,无气象参数的简单修正模型可以消除70%左右的对流层影响,有效地提高GPS的定位精度。 相似文献
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Bing Lin Yongxiang Hu 《Geoscience and Remote Sensing Letters, IEEE》2005,2(3):324-328
An active microwave method is investigated for measuring surface air pressure by using radar reflections at frequencies around 53-55 GHz O/sub 2/ bands. The numerical simulation results for homogeneous backgrounds show that with an airborne radar working at these O/sub 2/ absorption bands, the rms errors of the radar surface pressure estimations with 15-dB signal-to-noise ratio can be as low as 4-7 mb. A radar system that covers these wavelengths will have great potentials for weather observations and other meteorological applications. 相似文献
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为了提升面阵相机成像定位精度,以吉林省松原市北部区域的机载面阵图像为实验对象,对成像过程进行误差分析与标定. 机载面阵相机成像存在由三个姿态角引起的定位误差以及由相机镜头畸变等因素产生的畸变误差. 针对以上问题,首先采用严密几何模型,得到面阵图像初步成像结果;然后,采用后方交会和多项式附加参数模型等方法解决内、外方位元素引起的误差问题,得到较为精确的定位结果;最后进行实验验证,测试结果表明,经过内、外方位元素的误差定标,能够控制在5 m以内的范围,精度提升94.37%,处理效果显著. 通过研究标定面阵成像过程中内、外方位元素产生的误差,提高了面阵相机定位精度,对面阵相机成像的应用和推广具有一定价值和科学参考依据. 相似文献
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高精度影像立体定位是月球地形测绘的基础。对嫦娥1号光学传感器方位元素误差和方位元素相关性对影像定位影响进行了仿真,并建立了适合稀少、低精度控制点条件下月球光学影像区域网平差模型。该模型通过在月心直角坐标系(SOCS)进行影像空中三角测量来消除月球曲率引起的误差和测图范围限制,通过轨道形状的拟合与插值来减小摄影时刻轨道位置的偶然误差,在飞行坐标系中建立轨道修正模型来减少定向参数的数目,对轨道和姿态增加约束条件来提高月面控制点数目稀少及精度低条件下外方位解算的精度与可靠性。文中以克莱门汀10条轨道60景约195000km2月球南极区面阵影像和ULCN2005控制网为数据源,进行了不同方案的平差试验。通过对仿真和试验结果分析,得出月球遥感影像定位部分有益的结论。 相似文献
20.
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