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1.
Effects of ionospheric horizontal gradients on differential GPS 总被引:2,自引:0,他引:2
This paper outlines the effect of horizontal ionospheric gradients on transionospheric path propagation such as for the case
of GPS signals. The total electron content (TEC) is a function of time of day, and is much influenced by solar activity and
also the receiving station location. To make the model applicable for long baselines, for which the ionosphere is not generally
well correlated between receiving stations, the ionospheric gradients should be taken into account. In this work the signal
path is determined using a modified ray-tracing technique together with a homing-in method. Results show that horizontal gradients
can have a significant effect on GPS positioning for both single station positioning and differential GPS. For differential
GPS, the ionospheric delay can, however, be either increased or decreased compared with the case of no gradient, depending
on the gradient direction. 相似文献
2.
《Journal of Atmospheric and Solar》2008,70(15):1879-1884
The variability of the critical frequency of F2 layer, foF2, over ionospheric station Grocka (44.48N, 20.31E) has been studied during the declining phase of solar cycle 23 from 2004 to 2006. The variability index was introduced to identify the daily and seasonal patterns characterizing the local mid-latitude ionosphere during quiet and disturbed geomagnetic conditions. In addition, the behaviour of the vertical total electron content values, vTEC, obtained from global positioning system (GPS) measurements in the surrounding area under these conditions is reported. The analysis shows a number of interesting features representative of the ionospheric variability relevant for ionospheric modelling as well as ionospheric propagation applications based on a single station approach. 相似文献
3.
W. Kofman 《Surveys in Geophysics》1992,13(6):551-571
The incoherent scatter technique has been applied since 1965 to study the ionosphere and thermosphere in different regions of the Earth. The analysis of the received signal gives access to several ionospheric parameters as a function of height: electron density, electron and ion temperatures and ion velocity. The derivation of these parameters is usually a complicated mathematical procedure that requires a non-linear regression program. A lot of research has been done in the ionospheric and atmospheric science using this technique.In this paper we describe how one derives the ion-neutral collision frequency and the ion composition parameters. It is usually difficult to retrieve these parameters with the incoherent scatter technique; as a result, in the standard data analysis procedure, an ionospheric model is used instead. However the numerical values chosen in the model have an influence on the other derived parameters. For instance the choice of a wrong ion composition leads to erroneous plasma temperatures. It is therefore important to assess by how much the standard procedure deviates from reality. For this reason we compare the ion composition and collision frequency retrieved from a sophisticated analysis scheme with the values that are derived from models under similar geophysical conditions.It also possible to derive from the observed ionospheric parameters the neutral concentrations, temperatures and winds, by using the energy and momentum equations for the ions and the neutrals. In this paper the different methods and the corresponding assumptions involved in the data analysis are discussed. We describe the influence of the frictional heating, of the vertical neutral wind and of the ionospheric perturbations on the derivation of the neutral atmospheric parameters. Our discussion of the processes involved are drawn from results obtained by Chatanika, Sondrestrom and EISCAT radars. 相似文献
4.
本文分析了电离层风发电机理论中影响电流分布的几种主要因素,认为电离层电导率模型是最主要的影响因素。在计算太阴日变化(L)电流体系时,本文放弃了过去习惯采用的无限薄球壳的电导率模型,使用了分层电导率模型。考虑电导率随高度的变化以及电导率极大值的高度随纬度的变化,得到了与观测结果较为符合的理论L电流体系。本文的结果还指出,在处理某些全球性发电机理论问题时,不能简单地假定电离层为距地面等高度的无限薄球壳,而必须同时考虑大气潮汐振荡的特性及电导率随高度的变化。由此得出结论:发展三维电导率模型对于电离层风发电机理论是必要的。 相似文献
5.
GPS大气掩星探测技术可以获得全球大气折射率、气压、密度、温度和水汽压等气象参数,该技术基本原理是基于几何光学近似的Abel积分反演.地球扁率、电离层传播时间延迟、大气大尺度水平梯度、多路径传播现象等因素在某些高度范围影响大气反演的精度.本文采用模拟的方法,分析其中地球扁率及电离层对反演结果的影响,并讨论局部圆弧修正及电离层修正的效果.利用CHAMP掩星实测轨道数据和有关电离层和大气经验模式、采用三维射线追踪方法模拟计算几种情形下的GPS掩星观测附加相位数据,对模拟数据进行反演,将反演气象参量剖面与模拟时给定模式剖面进行比较,得到了0~60 km高度范围内的反演误差.误差统计分析结果表明,局部圆弧中心的修正以及电离层修正,对于高精度的GPS掩星反演是非常重要的;电离层修正残差仍是制约30~60 km高度范围内反演精度的重要因素,进一步完善和优化大气掩星反演需要发展新的电离层修正算法. 相似文献
6.
《Journal of Atmospheric and Solar》2008,70(6):889-900
Real time kinematic, or RTK, is a high-accuracy GPS relative positioning technique, which allows to measure positions in real time with an accuracy usually better than 1 decimeter. Ionospheric small-scale variability can strongly degrade RTK accuracy. In this paper, we present a method allowing to assess in a direct quantitative way the influence of the ionospheric activity on RTK accuracy. We apply this method to two different ionospheric situations: a day where strong travelling ionospheric disturbances (TIDs) were detected (December 24, 2004) and a day where a severe geomagnetic storm was observed (November 20, 2003). We show that on a 4 km baseline, strong TIDs have the same influence as the ionospheric variability induced by a geomagnetic storm on RTK accuracy: in both cases errors of more than 1.5 m are observed. 相似文献
7.
A mathematical model has been proposed for describing quasi-stationary atmospheric electric fields with approximate, but fairly
accurate allowance for ionospheric conductivity. It is shown that some well-known models of electric field penetration from
the Earth into the ionosphere have been deemed inadequate, though they work well in the atmosphere below 50 km. In these models,
the arbitrarily specified boundary condition in the upper boundary of the atmosphere omits the existing good conductor or
adds not existent conductor. The maximum possible field in our model is far less than in models where ionospheric conductivity
is not taken into account, but vastly larger than in models based on the approximation with infinite Pedersen conductivity
in the upper ionosphere. 相似文献
8.
Niyazi Arslan 《Acta Geophysica》2011,59(2):377-397
It is necessary to model and analyze the ionospheric effects due to a direct relationship between Global Positioning System
(GPS) applications and changes in the ionosphere. In order to monitor these changes, the ionosphere can be represented by
the vertical total electron content (VTEC) which can be used to analyze ionospheric conditions from a variety of stations. In this study, 21 stations were used to
carry out analysis and estimation of VTEC. Three days during a geomagnetic storm, namely, 7, 8, and 9 January 2005, are chosen for investigation. In addition, the
de-correlation time of the VTEC was estimated to define ionospheric variations in time using autocorrelation analysis. The de-correlation time of the ionosphere
is based on correlation times estimated by using autocorrelation functions. From the high-latitude stations, the mean of the
correlation times decreased from 8 to 6 epochs during a storm. In this time period, it was found from the station results
that the ionosphere was more affected at the high-latitude than at the mid-latitude region. 相似文献
9.
The computerized ionospheric tomography is a method for imaging the Earth’s ionosphere using a sounding technique and computing the slant total electron content (STEC) values from data of the global positioning system (GPS). The most common approach for ionospheric tomography is the voxel-based model, in which (1) the ionosphere is divided into voxels, (2) the STEC is then measured along (many) satellite signal paths, and finally (3) an inversion procedure is applied to reconstruct the electron density distribution of the ionosphere. In this study, a computationally efficient approach is introduced, which improves the inversion procedure of step 3. Our proposed method combines the empirical orthogonal function and the spherical Slepian base functions to describe the vertical and horizontal distribution of electron density, respectively. Thus, it can be applied on regional and global case studies. Numerical application is demonstrated using the ground-based GPS data over South America. Our results are validated against ionospheric tomography obtained from the constellation observing system for meteorology, ionosphere, and climate (COSMIC) observations and the global ionosphere map estimated by international centers, as well as by comparison with STEC derived from independent GPS stations. Using the proposed approach, we find that while using 30 GPS measurements in South America, one can achieve comparable accuracy with those from COSMIC data within the reported accuracy (1 × 1011 el/cm3) of the product. Comparisons with real observations of two GPS stations indicate an absolute difference is less than 2 TECU (where 1 total electron content unit, TECU, is 1016 electrons/m2). 相似文献
10.
本文基于IRI模型、地面数字测高仪和GNSS TEC数据,提出了一种利用经验正交函数(Empirical Orthogonal Function,简称EOF)估算顶部电离层电子密度剖面的方法,并将其应用于美国Millstone Hill测高仪和GNSS数据以估算顶部电离层电子密度剖面.通过将估算的临界频率、峰值高度、400km以上电子密度分别与测高仪实测临界频率、测高仪实测峰值高度以及非相干散射雷达实测400km以上电子密度作对比以对方法的有效性进行验证.统计结果显示估算临界频率、峰值高度与测高仪实测数据基本一致,400km以上估算电子密度相较于非相干散射雷达实测的绝对误差平均值仅是测高仪推算400km以上电子密度绝对误差平均值的一半左右.所以本文提出的方法可以更加精确地估算顶部电离层电子密度. 相似文献
11.
海平面的海啸波会产生大气重力波进而引发电离层扰动.本文利用日本GPS总电子含量数据来探测2011年3月11日Tohoku海啸引发的电离层扰动.观测结果表明,在日本上空的电离层中存在两种重力波信号,分别由海平面的海啸波以及地震破裂过程产生.地震产生的电离层重力波分布在震中周围(包括海洋上空以及远离海洋的区域),而海啸引发的电离层重力波主要分布在海洋上空.地震产生的电离层重力波具有不同的水平速度,包括约210 m·s-1以及170 m·s-1,其频率为1.5 mHz;而海啸引发的电离层重力波水平速度快于前者,约为280 m·s-1,其频率为1.0 mHz.此外,海啸引发电离层重力波与海平面上的海啸波有相似的水平速度、方向、运行时间、波形以及频率等传播特征.本文的研究将电离层中的海啸信号与地震信号区分开来,进一步确认电离层对海啸波的敏感性. 相似文献
12.
K. V. Bakurskii A. S. Zarubin T. O. Myslivtsev P. V. Savochkin I. V. Sakhno B. V. Troitsky A. P. Shpakov 《Geomagnetism and Aeronomy》2014,54(4):463-467
A method of correcting an ionosphere model is developed on the basis of data received from wide area navigation satellite systems. This method allows one to calculate the distribution of electron concentration on a scale that is close to real-time, and it can be used in conditions of a disturbed ionosphere, where it is difficult or impossible to determine the critical frequency of the F2 layer. The ionospheric parameters received from vertical incidence sounder data and retrieved from the corrected model agree well, which allows this approach to be used for ionospheric support of different radio systems. 相似文献
13.
Modeling the ionospheric electron content for the correction of altimetric measurements 总被引:1,自引:0,他引:1
The TOPEX-POSEIDON oceanographic satellite (due to be launched in 1992) will proceed to high accuracy altimetric measurements of the sea surface. Since the altimeter signals will propagate through the ionosphere, they will be retarded with respect to their free-space propagation delay. As a result, the measured altitude will exhibit an apparent lengthening which must be considered. In order to correct this effect, the ionosphere total electron content (TEC) beneath the satellite has to be known. This paper addresses the problem of determining the TEC form Doppler measurements performed on telemetric signals propagating between the satellite and the ground stations of the DORIS positioning system. This is an inverse problem which, in general, does not admit a single-valued solution. Physical observations of the ionophere lead us to assume that the TEC along each half-revolution is regular such that we can select an appropriate solution. This solution is approximated by cubic splines. The computed results are compared to simulation results, based on the Bent ionospheric model and seem to be particularly promising. 相似文献
14.
15.
16.
Antonio Angrisano Salvatore Gaglione Ciro Gioia Marco Massaro Umberto Robustelli 《Acta Geophysica》2013,61(6):1457-1476
The ionosphere is the main error source in GNSS measurements and in extreme cases can degrade the positioning significantly, with errors exceeding 100 m; therefore, modelling and predicting of this type of error is crucial and critical. The ionospheric effect can be reduced using different techniques, such as dual-frequency receiver or suitable augmentation system (DGPS, SBAS); the aforesaid approaches involve the use of expensive devices and/or complex architectures. Single frequency stand-alone receivers are the cheapest and most widespread GNSS devices; they can estimate and partially correct the error due to the ionosphere, through adequate algorithms, which use parameters broadcasted by the navigation message. The aim of this paper is performance assessment of the ionospheric model NeQuick, adopted by the European GNSS Galileo for single frequency receivers. The analysis is performed in measurements domain and the data are collected in different geographical locations and in various geomagnetic conditions. 相似文献
17.
本文研究太阳活动低年期间英国South Uist、Hawick和Aberystwyth三台站电离层电子总量的冬夜行为特性。法拉第旋转记录分析表明,中纬度电离层电子总量冬夜增长幅度和出现率同季节和台站纬度有关。文中详细考察了冬夜增长的发生时刻和持续时间的分布状况,电子总量冬夜极大值位置,冬夜电子总量W型特征面貌,冬夜增长的运动速度与方向等,发现电离层电子总量冬夜值和冬夜增长同地磁活动指数之间存在着负相关关系。对冬夜增长的机制,本文提出一种磁共轭电离迁移与等离子层电离库原理。指出在冬夏至期间,由于南北半球的太阳天顶角、日照时间、大气温度和电离密度的显著差别,在全球范围内依次于各地傍晚时分,发生一种从夏半球中纬度电离层沿高空磁力线并经等离子层电离库的调节,而朝向冬半球中纬度电离层共轭区的电离迁移和电离层贸易风,以此来解释电离层电子总量的夜间行为。 相似文献
18.
The state of the ionosphere affects the operational stability of satellite radio navigation systems. The dense network of
GEONET GPS sites on the territory of Japan allows to conduct a thorough investigation of the stability of system operation
at mid-latitudes in different heliogeophysical conditions. This paper considers deterioration in the accuracy of GPS system
positioning due to the effect of a large-scale ionospheric disturbance (an ionospheric bubble) over Japan on February 12,
2000. 相似文献
19.
K. A. Teterin 《Geomagnetism and Aeronomy》2013,53(3):337-344
In view of the popularity of using empirical models in implementing SW radio communication at long distances and in problems of target detection, it became necessary to adapt these models to the real state of the ionosphere so that these models could be used in operational work. It is proposed to adapt the IRI model by optimizing the values of the global ionospheric index and the number of solar spots, i.e., the parameters used in the model when calculating the height distribution of electron concentration in the ionosphere, with the involvement of oblique incidence backscatter sounding data. The problem regarding the correctness of the adaptation problem was considered under some restrictions. An estimate of the adaptation error has been obtained. 相似文献
20.
Dual-frequency global navigation satellite systems (GNSS) observations provide most of the input data for development of global ionosphere map (GIM) of vertical total electron content (VTEC). The international GNSS service (IGS) develops different ionosphere products. The IGS tracking network stations are not homogeneously distributed around the world. The large gaps of this network in Middle East, e.g., Iran plateau, reduce the accuracy of the IGS GIMs over this region. Empirical ionosphere models, such as international reference ionosphere (IRI), also provide coarse forecasts of the VTEC values. This paper presents a new regional VTEC model based on the IRI 2007 and global positioning system (GPS) observations from Iranian Permanent GPS Network. The model consists of a given reference part from IRI model and an unknown correction term. Compactly supported base functions are more appropriate than spherical harmonics in regional ionosphere modeling. Therefore, an unknown correction term was expanded in terms of B-spline functions. The obtained results are validated through comparison with the observed VTEC derived from GPS observations. 相似文献