共查询到19条相似文献,搜索用时 171 毫秒
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在分析Kalman滤波层析方法的基础上,将基于指数渐消因子的自适应Kalman滤波方法用于层析大气湿折射率,并结合香港地区CORS网观测资料及探空气象观测资料进行了分析.结果表明,该方法能够长时间以较高精度反演湿折射率垂直轮廓线,较好地反映了大气的实际状况,有效避免了一般Kalman滤波可能出现的发散. 相似文献
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基于水汽密度比例因子的三维水汽层析算法 总被引:1,自引:1,他引:0
针对传统水汽密度层析方法的缺点,设计并实现了一种基于水汽密度比例因子的三维水汽层析算法,提高了观测数据的利用率。利用香港CORS网的实测GPS和气象数据,并结合研究区域内45004探空站的探空数据,验证了该算法用于实测数据的可行性及精度,并分析了不同天气对层析新算法的影响。试验结果表明:该算法在观测数据的利用率上远大于传统层析方法,以探空数据为参考基准,RMS、水汽廓线相关系数和误差分布均优于传统方法。此外,降水天气对层析结果影响要比无降水天气的影响大。 相似文献
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将GPS信号的斜路径湿延迟当作层析的观测量能够有效获取对流层的三维水汽场。由于射线分布的不均匀和观测网地形的扁平,观测方程是不适定的,因此需要添加一些约束条件来确定唯一解。由于水汽在垂直方向变化很快,合理的垂直约束在获取准确的水汽场上起着重要作用。研究了香港地区湿折射率的垂直分布特征,发现高斯函数能很好地表达湿折射率与高度的关系,利用高斯函数建立约束方程获得的层析解能很好地与探空数据和欧洲中尺度天气预报中心(ECMWF)数据吻合。相对于指数约束所得结果,层析湿折射率的标准差在整个对流层减小了3.8 mm/km,在低对流层减小了4.7 mm/km。实验也表明,利用其他气象数据,如无线电探空数据,作为湿折射率的先验信息,也可以得到较好的层析解。 相似文献
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在全球导航卫星系统(global navigation satellite system,GNSS)水汽层析中,受卫星星座和接收机几何分布的影响,穿过层析区域的射线条数有限。针对该问题,设计并实现了一种附加虚拟倾斜路径信号精化水汽层析模型的方法,该方法能够增加穿过研究区域的射线条数和射线穿过的网格数,使层析结果更加逼近真值。利用香港卫星定位参考站网2015年5月共31 d的GPS网实测数据和气象数据进行实验,并结合无线电探空数据验证该方法的可行性及精度。结果表明,该方法能够提高层析结果的精度,与传统层析方法相比,该方法在均方根(root mean square,RMS)、水汽密度廓线和误差分布上均优于传统方法。 相似文献
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利用GNSS三维水汽层析技术全天候地获取高时空采样率的水汽垂直分布信息,已成为GNSS气象学中一大研究热点。当前,基于单一导航系统的传统层析方法存在观测数据利用率低、观测分布不均等不足。本文设计和实现了一种顾及边界入射信号的多模水汽层析方法,采用香港CORS网观测数据和无线电探空产品进行精度验证,并详细分析边界入射信号和多模层顶信号的引入对层析水汽结果的改善程度。结果表明:相较于传统GPS层析方法,本文采用的融合两类多模层顶信号和边界入射信号的新水汽层析方法,兼备边界入射信号和多模层顶信号的优点,可得到更高精度和更可靠的三维水汽信息。 相似文献
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给定内插高程异常值的精度时对GPS水准网格间距的考虑 总被引:7,自引:0,他引:7
在已布设GPS水准网的地区,若需内插其中任意一点的高程异常值时,应该了解该内插值的精度。导出了该内插点高程异常值的精度评定方法,并具体给出在我国C级GPS水准网中,该内插点高程异常推估值精度和该地区的地形和栅格重力异常分辨率的数学关系式和实例。在给定内插点高程异常值精度的局域大地水准面时,按不同地形和栅格重力异常分辨率的密度,根据这些数学关系式,可以设计间距合理的B级或C级GPS水准网。 相似文献
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基于GPS基准网的GPS快速静态定位及动态定位方法 总被引:3,自引:0,他引:3
介绍基于GPS基准网进行GSP快速静态定位和动态定位的原理和方法。通过计算基准网改正数及其空间分布,利用内插方法求出用户站的模型误差改正数,不仅可以提高GPS整周模糊度的可靠性,而且能够大大改善GPS测量的精度。利用香港GPS基准网2001年3月的实测数据进行了解算,发现地区在该时间段内受强电离层活动的影响,采用常规GPS测量方法很难确定整周模糊度。利用传统的快速静态定位方法对香港GPS基准网其中一条边(9.2km)24h的观测数据按每15min计算,模糊度确定的准确率仅为45%。采用基准网内插改正数后,仅利用L1的观测数据模糊度确定的准确率提高到100%。点位精度平面位置由2cm提高到5mm,高程精度由4cm提高到3cm。 相似文献
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矿区似大地水准面拟合模型适用性分析 总被引:2,自引:0,他引:2
为提高GPS/水准数据拟合高程异常的逼近精度,利用某矿区控制网观测的GPS/水准数据,计算控制点高程异常值,分别用加权平均法、Shepard插值、多项式曲面拟合和多面函数法4种方法对矿区似大地水准面进行拟合。对各种拟合模型的原理和拟合精度进行比较分析。在此基础上,根据似大地水准面物理和几何特性,采用组合拟合的方法进一步改善似大地水准面的拟合精度,利用该模型内插高程异常值与实测GPS/水准点的高程异常值比较,其均方根误差不超过0.02 m,结合GPS观测成果可以取代四等及以下几何水准测量。 相似文献
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针对精密单点定位中内插精密卫星钟差的需要,本文利用广义延拓插值法对IGS精密卫星钟差进行插值,探讨广义延拓插值数学模型中单元域节点、延拓域节点、逼近函数项数三个参数与插值精度之间的关系,并与传统经典的Lagrange多项式插值法进行比较分析,实际算例表明,只要选取适当的参数,广义延拓插值法可以拥有比Lagrange多项式插值法更高的精度。 相似文献
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GPS/INS navigation precision and its effect on airborne radio occultation retrieval accuracy 总被引:1,自引:1,他引:0
Paytsar Muradyan Jennifer S. Haase Feiqin Xie James L. Garrison Justin Voo 《GPS Solutions》2011,15(3):207-218
An airborne radio occultation (RO) system has been developed to retrieve atmospheric profiles of refractivity, moisture, and temperature. The long-term objective of such a system is deployment on commercial aircraft to increase the quantity of moisture observations in flight corridors in order to improve weather forecast accuracy. However, there are several factors important to operational feasibility that have an impact on the accuracy of the airborne RO results. We investigate the effects of different types of navigation system noise on the precision of the retrieved atmospheric profiles using recordings from the GNSS Instrument System for Multistatic and Occultation Sensing (GISMOS) test flights, which used an Applanix POS/AV 510 Global Positioning System (GPS)/Inertial Navigation System (INS). The data were processed using a carrier phase differential GPS technique, and then the GPS position and inertial measurement unit data were combined in a loosely coupled integrated inertial navigation solution. This study quantifies the velocity precision as a function of distance from GPS reference network sites, the velocity precision with or without an inertial measurement unit, the impact of the quality of the inertial measurement unit, and the compromise in precision resulting from the use of real-time autonomous GPS positioning. We find that using reference stations with baseline lengths of up to 760?km from the survey area has a negligible impact on the retrieved refractivity precision. We also find that only a small bias (less than 0.5% in refractivity) results from the use of an autonomous GPS solution rather than a post-processed differential solution when used in an integrated GPS/INS system. This greatly expands the potential range of an operational airborne radio occultation system, particularly over the oceans, where observations are sparse. 相似文献
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根据InSAR观测量对南北向形变不敏感的特点,将内插GPS数据得到的南北向形变场信息和InSAR监测数据进行集成和融合解算,提取三维形变场。该方法有效避免了因直接忽略南北向形变而带来的精度影响问题,较好地改善了垂向形变场的反演精度。以西安市作为研究区域,融合EnviSat ASAR、ALOS PALSAR及GPS数据,反演西安市2009—2010年在东西向和垂向的绝对的年平均形变速率场(形变场),并与11个水准监测结果进行比对,发现融合反演法不仅能提供三维形变场,而且反演的垂向精度明显优于忽略南北向形变后的反演形变结果,从而对西安市地表形变有更深入的认识。 相似文献
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4D GPS water vapor tomography: new parameterized approaches 总被引:1,自引:1,他引:0
Water vapor is a key variable in numerical weather prediction, as it plays an important role in atmospheric processes. Nonetheless,
the distribution of water vapor in the atmosphere is observed with a coarse resolution in time and space compared to the resolution
of numerical weather models. GPS water vapor tomography is one of the promising methods to improve the resolution of water
vapor measurements. This paper presents new parameterized approaches for the determination of water vapor distribution in
the troposphere by GPS. We present the methods and give first results validating the approaches. The parameterization of voxels
(volumetric pixels) by trilinear and spline functions in ellipsoidal coordinates are introduced in this study. The evolution
in time of the refractivity field is modeled by a Kalman filter with a temporal resolution of 30 s, which corresponds to the
available GPS-data rate. The algorithms are tested with simulated and with real data from more than 40 permanent GPS receiver
stations in Switzerland and adjoining regions covering alpine areas. The investigations show the potential of the new parameterized
approaches to yield superior results compared to the non parametric classical one. The accuracy of the tomographic result
is quantified by the inter-quartile range (IQR), which is decreased by 10–20% with the new approaches. Further, parameterized
voxel solutions have a substantially smaller maximal error than the non parameterized ones. Simulations show a limited ability
to resolve vertical structures above the top station of the network with GPS tomography. 相似文献
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利用GPS/MET与CHAMP掩星资料反演地球中性大气参数的比较 总被引:1,自引:0,他引:1
采用Abel积分反演算法 ,在干大气模式下 ,分别针对GPS/MET与CHAMP特定掩星事件的Level2数据进行处理 ,得到了相应的折射指数与大气参数廓线。分别将反演结果与UCAR和GFZ公布的结果进行比较 ,证明了反演算法的正确性与通用性。分析了两个温度反演结果都存在系统误差和CHAMP温度反演结果误差较大的原因 ,并提出了改进建议 相似文献
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Improving vertical GPS precision with a GPS-over-fiber architecture and real-time relative delay calibration 总被引:2,自引:0,他引:2
Daniel Macias-Valadez Rock Santerre Sophie Larochelle René Landry Jr. 《GPS Solutions》2012,16(4):449-462
A limitation of GPS positioning is that the vertical component is generally two to three times less precise than the horizontal components. In a previous work by R. Santerre of Laval University and G. Beutler of University of Bern, it was shown in simulations that it is possible to improve the GPS vertical positioning precision by using a multi-antenna GPS receiver and a precise calibration technique of the relative hardware delay between the antennas and the receiver. However, no actual implementation of the system was done to prove the concept until now. A new multi-antenna, GPS-over-fiber architecture with real-time delay monitoring, designed and implemented to improve the vertical precision is presented. The improvement in vertical precision arises from the elimination of the relative receiver clock error in single difference, between antennas, and the precision real-time calibration of the relative hardware delay. Experiments were conducted with a zero baseline and a short baseline configuration. The results show, as expected by the theory and the simulations, a two to three times improvement in the precision of the vertical component such that it reached the same level of performance as the horizontal components. These promising results will enable the use of this type of configuration in several applications where the same precision in all 3D components is essential and could not be achieved before with standard GPS positioning techniques. 相似文献
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Orbit fitting is used in many GPS applications. For example, in Precise Point Positioning (PPP), GPS orbits (SP3 orbits) are normally retrieved either from IGS or from one of its Analysis Centers (ACs) with 15 minutes’ sampling, which is much bigger than the normal observation sampling. Therefore, algorithms should be derived to fit GPS orbits to the observation time. Many methods based on interpolation were developed. Using these methods the orbits fit well at the sampling points. However, these methods ignore the physical motion model of GPS satellites. Therefore, the trajectories may not fit the true orbits at the periods in between 2 sampling epochs. To solve this problem, we develop a dynamic approach, in which a model based on Helmert transformation is developed in GPS orbit fitting. In this orbit fitting approach, GPS orbits at sampling points are treated as pseudo-observations. Thereafter, Helmert transformation is built up between the pseudo-observations and dynamically integrated orbits at each epoch. A set of Helmert parameters together with corrections of GPS initial orbits are then modeled as unknown parameters. Results show that the final fit orbits have the same precision as the IGS final orbits. 相似文献