共查询到19条相似文献,搜索用时 93 毫秒
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主要从GPS的基本观测方程出发,通过数学分析的方法,在GPS观测值之间建立数学模型,进一步分别推导了伪距观测值和相位观测值中多路径效应的影响。此外,主要研究了利用相位平滑伪距削弱伪距多路径误差的方法和利用小波分析的方法对GPS多路径值序列进行分解和重构,提取出高精度的多路径误差,并通过实验数据分析了几种方法中的多路径效应影响。 相似文献
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本文主要从GPS的基本观测方程出发,通过数学分析的方法,在GPS观测值之间建立数学模型,进一步推导了伪距观测值和相位观测值中多路径效应的影响.此外,主要研究了利用相位平滑伪距削弱伪距多路径误差的方法,以及利用小波分析的方法对GPS多路径值序列进行分解和重构,提取出高精度的多路径误差,并通过实验数据分析了几种方法中的多路径效应. 相似文献
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GPS伪距观测量由于不存在周跳和整周模糊度的问题,可用来实现动态导航定位,但受到多路径效应影响较为严重,定位精度较低。本文以BJFS站为例,计算了伪距多路径效应,首次大量采用单历元数据,以球谐函数的形式建立了伪距多路径效应、高度角和方位角间的函数模型。建模过程中用截断奇异值分解方法解决了单历元数据引起的的病态问题,求得了模型的最小二乘解。在伪距观测数据中加入模型计算的伪距多路径效应改正,用Bernese软件的动态单点定位功能进行伪距单点定位。对BJFS站的伪距动态定位结果进行统计分析,结果表明单点定位精度得到了改善。 相似文献
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利用MP提高GPS单点定位精度的研究 总被引:1,自引:0,他引:1
多路径误差是GPS定位重要的误差源之一,本文利用MP(多径组合观测值)对观测值受到的多路径效应进行定量评价,在GPS伪距单点定位中降低受多路径效应影响的观测值的权重,达到削减多路径误差提高定位精度的目的,最后通过试验验证了此方法的有效性和可靠性。 相似文献
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时荣 《测绘与空间地理信息》2015,(8):175-177
多路径误差分析是北斗卫星导航系统性能评估的一项重要内容。本文给出了一种新的计算3频多路径误差的方法,该方法只需对B1和B2载波相位观测值进行处理就能得到3个频率的伪距多路径误差。利用MGEX跟踪站的数据计算了BDS的多路径误差,从GPS和BDS多路径误差比较以及纬度、轨道和频率因素分析了BDS多路径误差的特性,结果表明,BDS多路径误差小于0.5 m,符合质量检查要求,其性能优于GPS卫星系统。 相似文献
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研究了星载GPS伪距测量精度评定方法以及粗差的探测方法,用自编的软件对CHAMP卫星和SAC-C卫星的星载GPS实测数据进行了详细的分析。结果表明:随着卫星高度角的不同,多路径效应与伪距测量噪声对星载GPS伪距测量精度的影响在0.5~3.0 m之间;CHAMP和SAC-C星载GPS观测数据中,伪距粗差观测值所占的比例分别达到1.2%和3.0%。 相似文献
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研究了星载GPS伪距测量精度评定方法以及粗差的探测方法,用自编的软件对CHAMP卫星和SAC-C卫星的星载GPS实测数据进行了详细的分析.结果表明:随着卫星高度角的不同,多路径效应与伪距测量噪声对星载GPS伪距测量精度的影响在0.5~3.0 m之间;CHAMP和SAC-C星载GPS观测数据中,伪距粗差观测值所占的比例分别达到1.2%和3.0%. 相似文献
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为了进一步分析北斗卫星观测值的相关特性,文章对比北斗卫星与GPS卫星、以及不同类型北斗卫星之间观测值特性的差异,提出了用站间差分考察伪距多路径组合和GFIF组合观测值的方法。陆态网络数据实验结果显示,北斗卫星B1频率观测值的信噪比最低;高度角较低时,北斗卫星伪距多路径组合绝对值和离散度均较大,约为1.5m,且IGSO和MEO卫星的伪距多路径组合值随高度角增大而明显降低;北斗GEO和IGSO卫星的相位GFIF组合有日周期性,变化范围约为±2cm,伪距GFIF组合的变化范围可达±2m;站间差分可明显减弱伪距多路径组合的变化趋势和相位GFIF组合的周期性,表明这两个组合中可能包含与卫星相关的误差,为北斗观测数据误差处理提供参考。 相似文献
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对搭载美国BlackJack接收机的CHAMP/GRACE-A/Jason-2卫星和搭载国产接收机的HY2A/ZY3/TH1卫星的星载GPS数据的伪距多路径误差与观测噪声进行了研究,重点分析了国产接收机伪距多路径误差的变化特性,并研究了多路径误差与观测噪声对星载GPS自主定轨的影响。结果表明:国产接收机的C/A码与P1码伪距观测精度要整体差于美国的BlackJack接收机,而P2码伪距观测精度要整体优于BlackJack接收机;国产接收机P1码伪距受多路径效应影响较大,其多路径误差随高度角减小存在单调递增的变化趋势,其中HY2A、ZY3与TH1卫星的多路径误差最大分别可达3.6 m、1.8 m与0.7 m;这种单调递增变化的多路径误差会导致星载GPS自主定轨位置结果在径向与切向产生系统性偏差。 相似文献
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Adaptive wavelet transform based on cross-validation method and its application to GPS multipath mitigation 总被引:3,自引:2,他引:1
Global positioning system (GPS) multipath disturbance is a bottleneck problem that limits the accuracy of precise GPS positioning
applications. A method based on the technique of cross-validation for automatically identifying wavelet signal layers is developed
and used for separating noise from signals in data series, and applied to mitigate GPS multipath effects. Experiments with
both simulated data series and real GPS observations show that the method is a powerful signal decomposer, which can successfully
separate noise from signals as long as the noise level is lower than about half of the magnitude of the signals. A multipath
correction model is derived based on the proposed method and the sidereal day-to-day repeating property of GPS multipath signals
to remove multipath effects on GPS observations and to improve the quality of the GPS measurements. 相似文献
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一种基于交叉证认技术的自适应小波变换及其在削减GPS多路径误差中的应用 总被引:2,自引:1,他引:1
多路径效应影响是目前限制GPS定位精度进一步提高的瓶颈。提出用交叉证认技术自动识别小波分解的信号层,再通过小波重构实现降噪和信号提取,并将该方法应用于GPS多路径误差的削减中。对模拟数据和实际GPS观测资料的分析表明,该方法能合理分离不同噪声水平下资料序列中的信号和噪声;当噪声水平小于信号振幅的一半时,能成功分离资料序列中的高频信号。同时,运用该方法得到的多路径改正模型和GPS多路径效应的重复性,可有效地削弱多路径效应的影响,提高GPS定位精度。 相似文献
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A preliminary study was conducted to evaluate the amount of pseudorange multipath at 390+ sites in the National Continuously Operating Reference Station (CORS) Network. The National CORS Network is a cooperative effort involving over 110 different agencies, universities, and private companies who seek to make GPS data from dual-frequency receivers located throughout the United States and its territories available to the general public. For CORS users, pseudorange multipath can seriously degrade the accuracy of any application that relies on precise measurements of the pseudorange observable over a short period of time, including differential pseudorange navigation, kinematic and rapid-static surveying, and ionospheric monitoring. The main objectives of this study were to identify the most affected and least affected sites in the network, to closely investigate problematic sites, and to compare various receiver/antenna combinations. Dual-frequency carrier phase and pseudorange measurements were used to estimate the amount of L1 and L2 pseudorange multipath at each site over a one-year period. Some of the most severely affected sites were maritime Differential GPS and Nationwide Differential GPS (DGPS/NDGPS) sites. Photographs obtained for these sites verified the presence of transmission towers and other reflectors in close proximity to the GPS antennas. Plotting the variations of the L1 and L2 pseudorange multipath with respect to azimuth and elevation further verified that even above a 60° elevation angle there was still as much as five meters of pseudorange multipath at some sites. The least affected sites were the state networks installed in Ohio and Michigan; these sites used excellent antenna mounts, choke ring antennas, and new receiver technology. A comparison of the 12 most commonly used receiver/antenna combinations in the CORS Network indicated that newer receivers such as the Ashtech UZ-12, Leica RS-500, and Trimble 5700 help to significantly mitigate pseudorange multipath, while the receivers/antennas at some DGPS/NDGPS sites, and the antennas formerly used at the Wide Area Augmentation System (WAAS) sites, are among those most affected by pseudorange multipath. The receiver/antenna comparison did not take into account the potential presence of reflectors at the sites (i.e., it is possible that a well-performing receiver/antenna combination could have been consistently placed at very poor site locations, and vice-versa).Product Disclaimer: Mention of a commercial company or product does not constitute an endorsement by the National Oceanic and Atmospheric Administration. Use for publicity or advertisement purposes of information from this paper concerning proprietary products or the comparison of such products is not authorized. 相似文献
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Multipath disturbance is one of the most important error sources in high-accuracy global positioning system (GPS) positioning and navigation. A new data filtering method, based on the Vondrak filter and the technique of cross-validation, is developed for separating signals from noise in data series, and applied to mitigate GPS multipath effects in applications such as deformation monitoring. Both simulated data series and real GPS observations are used to test the proposed method. It is shown that the method can be used to successfully separate signals from noise at different noise levels, and for varying signal frequencies as long as the noise level is lower than the magnitude of the signals. A multipath model can be derived, based on the current-day GPS observations, with the proposed method and used to remove multipath errors in subsequent days of GPS observations when taking advantage of the sidereal day-to-day repeating characteristics of GPS multipath signals. Tests have shown that the reduction in the root mean square (RMS) values of the GPS errors ranges from 20% to 40% when the method is applied. 相似文献
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GPS残差信号提取的时间序列分析方法 总被引:1,自引:0,他引:1
作者使用零基线单差模型研究并讨论了GPS量测噪声的时相关特性,并得出了GPS观测噪声具有类似白噪声或一阶高斯马尔科夫噪声的特殊性质。利用观测噪声所具备的这种特殊性质,作者首先尝试了从时间域的角度分离和提取了残差序列中的多路径信号特性,成功验证了多路径信号在连续两个恒星日内会有所重复的结论。作者提出了一种使用时相关分析法检测观测序列中周期信号(如冰期反弹、固体潮、极潮等)的设想并就其可行性进行了分析研究。最后,针对观测噪声的这种特殊性质,探讨了结合使用小波分析法提取GPS沉降监测信号的可行性。 相似文献
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Though state-of-the-art dual-frequency receivers are employed in the continuous Global Positioning System (CGPS) arrays, the
CGPS coordinate time series are typically very noisy due to the effects of atmospheric biases, multipath, receiver noise,
and so on, with multipath generally being considered the major noise contributor. An adaptive finite-duration impulse response
filter, based on a least-mean-square algorithm, has been developed to derive a relatively noise-free time series from the
CGPS results. Furthermore, this algorithm is suitable for real-time applications.
Numerical simulation studies indicate that the adaptive filters is a powerful signal decomposer, which can significantly mitigate
multipath effects. By applying the filter to both pseudorange and carrier phase multipath sequences derived from some experimental
GPS data, multipath models have been reliably derived. It is found that the best multipath mitigation strategy is forward
filtering using data on two adjacent days, which reduces the standard deviations of the pseudorange multipath time series
to about one fourth its magnitude before correction and to about half in the case of carrier phase. The filter has been successfully
applied to the pseudorange multipath sequences derived from CGPS data. The benefit of this techniques is that the affected
observable sequences can be corrected, and then these corrected observables can be used to improve the quality of the GPS
coordinate results. ? 2000 John Wiley & Sons, Inc. 相似文献
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