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1.
Markus Rothacher 《GPS Solutions》2001,4(4):55-60
Three major GPS antenna calibration methods are available toda: the relative field calibrations using the GPS data collected
on short baselines, the absolute field calibrations, where the GPS antenna is rotated and tilted by a robot, and calibration
measurements in an anechoic chamber. Mean antenna offsets and the elevation-dependent phase center variations of GPS antennas
determined by all three techniques are compared to assess their accuracy. The analysis of global GPS data with these sets
of calibration values reveals that the offsets and variations of the satellite antenna phase centers have to be considered,
too, to obtain a consistent picture. ? 2001 John Wiley & Sons, Inc. 相似文献
2.
一种顾及现势指向的上行天线阵相位中心精确标校方法 总被引:1,自引:0,他引:1
针对上行天线阵相位中心标校技术粗糙、精度不高等问题,引入精密工程测量技术测定天线实际状态,提出了一种顾及现势指向的相位中心精确标校方法。首先,利用工业摄影测量系统获取天线各姿态的型面数据,并通过最小二乘法拟合求解出现势性强的机械轴;然后,用矩阵法解算各姿态下机械轴的交点作为旋转中心;最后,基于反角度加权插值法推估得到天线在任意姿态下的机械轴,进而从投影中心沿机械轴延伸既定长度获得可靠的相位中心。以3台φ3 m上行阵天线为试验对象,通过工程控制网统一摄影测量坐标系,并按照本文方法标校天线相位中心。电信号合成效果表明,本文方法能有效克服天线自重变形、机械安装等因素的影响,实现了相位中心的精确标校,增强了上行天线阵合成信号的幅度。 相似文献
3.
Influence of different GPS receiver antenna calibration models on geodetic positioning 总被引:1,自引:0,他引:1
Q. Baire C. Bruyninx J. Legrand E. Pottiaux W. Aerts P. Defraigne N. Bergeot J. M. Chevalier 《GPS Solutions》2014,18(4):529-539
To better understand how receiver antenna calibration models contribute to GPS positioning error budget, we compare station positions estimated with different calibration models: igs05.atx, igs08.atx and individual antenna calibrations. First, the impact of switching from the igs05.atx antenna calibration model to the igs08.atx antenna calibration model is investigated using the EUREF Permanent Network historical data set from 1996 until April 2011. It is confirmed that these position offsets can be effectively represented by the igs05.atx to igs08.atx latitude-dependent model. Then, we demonstrate that the position offsets resulting from the use of individual calibrations instead of type mean igs08.atx calibrations can reach up to 1 cm in the up component, while in the horizontal, the offsets generally stay below 4 mm. Finally, using six antennas individually calibrated by a robot as well as in an anechoic chamber, we observe a position agreement of 2 mm in the horizontal component and a bias of 5 mm in the up component. Larger position offsets, dependent on the antenna/radome type, are, however, found when these individual calibrations are compared to type mean calibrations of two tested antennas. 相似文献
4.
在高精度GNSS定位中,接收机天线相位中心偏差(PCO)和天线相位中心变化(PCV)的影响不可忽略。目前,IGS发布的绝对天线相位模型文件中包含了GPS/GLONASS系统的标定值,但是没有发布北斗系统(BDS)的标定值。本文借助机械臂可以控制天线自由旋转,在数小时内实现全方位GNSS观测的特性,采用历元间差分的方法对接收机天线包括GPS L1/L2和BDSB1I/B2I/B3I等多个频点的PCO和PCV分别进行标定和拟合。标定结果表明,比较最小二乘估计的GPS PCO与IGS发布值,其STD和RMS在L1/L2上均小于1 mm;BDS PCO估计值的STD在B1I/B2I/B3I上分别为0.5、0.3、0.3 mm。利用球谐函数拟合的GPS PCV格网值与IGS发布值相比,其偏差在天顶距小于75°时均小于1.5 mm。BDS PCV拟合值范围均在-5~8 mm,且随天顶距变化曲线呈现波谷状。BDS PCV在低高度角处拟合值波动较大,随方位角变化曲线峰值-峰值最大达到了5.6 mm。 相似文献
5.
在精密定位中,GNSS接收机天线相位中心变化是必须进行改正的影响因素。目前成熟的微波暗室法和自动机器人法,对于一般用户而言,不具备相关实验条件,而野外相对法相对简单、易操作。为此,本文利用相对检测法,对GNSS接收机天线相位中心变化进行检测。实例表明,此方法可获得精度优于±3 mm的检测结果,因此可利用此方法对其他类型天线PCV值进行检测,也可借鉴此方法对北斗接收机天线相位中心变化进行检测。同时论文分析了影响检测精度,提出了有益改进建议。 相似文献
6.
施品浩 《武汉大学学报(信息科学版)》1990,(1)
本文讨论了GPS测量的重要误差来源之一——接收机天线相位中心漂移误差,研究了表征平均相位中心的基本参数及其检测和处理方法。如果用户设备进行了这种检测,并对观测成果作了相应的修正,目前大部分商品接收机在几十公里以内的短过测量中,精度可以提高到3 mm+2 ppm·d(d为边长,单位:km),同时解决了混合机组参加GPS网观测和处理的难题。 相似文献
7.
相位绕转在GNSS定位中是一种误差源,但包含接收机天线旋转的有用信息。提出了一种基于站间单差相位绕转观测数据估计测站天线旋转速率的方法。首先由无几何距离观测值的变化判断天线旋转的开始与结束时间,然后利用单颗卫星站间差分的无几何距离观测值求出测站的天线旋转角度,以及单颗卫星的测站天线旋转速率,最后将所有卫星计算的测站天线旋转速率按照高度角加权平均得到最终的天线旋转速率。通过精心设计实验方案,经实测数据验证,该方法可以精确地估计测站天线的旋转速率,在本实验中,天线旋转平均速率估计精度约为0.5°/s。 相似文献
8.
Systematic differences between VTEC obtained by different space-geodetic techniques during CONT08 总被引:1,自引:1,他引:0
The ionosphere is a dispersive medium for microwaves, and most space-geodetic techniques using two or more signal frequencies
can be applied to extract information on ionospheric parameters, including terrestrial as well as satellite-based GNSS, DORIS,
altimetry, and VLBI. Because of their different sensitivity regarding ionization, their different spatial and temporal data
distribution, and their different signal paths, a joint analysis of all observation types seems reasonable and promises the
best results for ionosphere modeling. However, it has turned out that there exist offsets between ionospheric observations
of the diverse techniques mainly caused by calibration uncertainties or model errors. Direct comparisons of the information
from different data types are difficult because of the inhomogeneous measurement epochs and locations. In the approach presented
here, all measurements are combined into one ionosphere model of vertical total electron content (VTEC). A variance component
estimation is applied to take into account the different accuracy levels of the observations. In order to consider systematic
offsets, a constant bias term is allowed for each observation group. The investigations have been performed for the time interval
of the CONT08 campaign (2 weeks in August 2008) in a region around the Hawaiian Islands. Almost all analyzed observation techniques
show good data sensitivity and are suitable for VTEC modeling in case the systematic offsets which can reach up to 5 TECU
are taken into account. Only the Envisat DORIS data cannot provide reliable results. 相似文献
9.
Spin rate estimation of sounding rockets using GPS wind-up 总被引:2,自引:1,他引:1
Carrier phase wind-up is a well-known effect that arises from the relative rotation between a transmitting and receiving antenna.
In GPS measurements at L1 frequency, this effect translates into an error of 19.029 cm per full relative rotation of antennas.
Since this effect is independent of the satellite elevation for pure rotation about the antenna boresight axis, it is usually
absorbed by the clock estimation in navigation algorithms. Therefore, the impact of wind-up is usually neglected for applications
that do not require accuracies to the cm level like RTK. However, in receiving platforms with high rotation rate, the accumulated
wind-up value can be important and actually be larger than receiver noise or even ionospheric variations. Therefore, in such
scenarios, the wind-up contribution can be isolated and used as a source of information to compute the spin rate of such platforms
using an appropriate combination of GPS observables. This work shows some results of a coarse, yet simple, approach to monitor
the rotation angle and spin-rate of spin stabilized sounding rockets flown by DLR. 相似文献
10.
11.
北斗天线电气相位中心偏差检验试验研究 总被引:1,自引:0,他引:1
为满足北斗双星定位系统精密定位、定向的工程需要,提出一种北斗天线电气相位中心常值偏差3维检验方法,并建立了相应的数学模型.该方法通过基线旋转、单天线旋转、交换天线,利用载波相位单差、基线长度、天线高差测量信息来估计天线电气相位中心偏差,并且在单天线旋转条件下对不同方向、不同天线间单差观测方程求差,以减少未知参数个数.最后,应用此模型检验一对北斗天线,检验结果表明,在单差均方差为0.005周,基线长度、天线间高差均方差为1 mm的条件下,天线间电气相位中心偏差水平分量的检验精度达0.3 mm.论文所述方法操作简单,适合在野外对北斗天线进行电气相位中心偏差检验. 相似文献
12.
介绍了GNSS天线相位中心改正的基本概念和定义,分析了相位中心偏差(PCO)和变化(PCV)的改正公式,以及天线相位中心改正从相对相位中心模型到绝对相位中心模型的演变,最后结合软件对相位中心改正的实现方法进行了介绍。 相似文献
13.
GPS Antenna Calibration at the National Geodetic Survey 总被引:15,自引:2,他引:13
Gerald L. Mader 《GPS Solutions》1999,3(1):50-58
The precise point whose position is being measured when a GPS baseline is determined is generally assumed to be the phase
center of the GPS antenna. However, the phase center of a GPS antenna is neither a physical point nor a stable point. For
any given GPS antenna, the phase center will change with the changing direction of the signal from a satellite. Ideally, most
of this phase center variation depends on satellite elevation. Azimuthal effects are only introduced by the local environment
around each individual antenna site. These phase center variations affect the antenna offsets that are needed to connect GPS
measurements to physical monuments. Ignoring these phase center variations can lead to serious (up to 10 cm) vertical errors.
This article will describe the procedure by which the National Geodetic Survey is calibrating GPS antennas and how this information
may be obtained and used to avoid problems from these antenna variations. ? 1999 John Wiley & Sons, Inc. 相似文献
14.
Remote leveling of tide gauges using GNSS reflectometry: case study at Spring Bay,Australia 总被引:1,自引:1,他引:0
We further developed a new approach using GNSS reflectometry to determine the leveling connection between a tide gauge and a GNSS antenna. This approach includes the optimization of the unknown receiver bandwidth and the estimation of frequency changes in the signal-to-noise ratio (SNR) oscillation through an extended Kalman filter/smoother algorithm. We also corrected the geometric bending of the GNSS signals due to tropospheric refraction using local meteorological observations. Using 3 weeks of SNR data in Spring Bay, Australia, from a GNSS antenna placed sideways (i.e., ground plane orientated vertically and directed in azimuth toward the sea surface) to improve the SNR interference near the horizon, we obtained mean leveling differences of approximately 5 mm, with an RMS of approximately 3 cm level with respect to the nominal leveling from classical surveying techniques. SNR data from three different receiver manufacturers, coupled to the same antenna, provided similar leveling results. With a second antenna in the usual upright configuration, we obtained mean leveling differences of 1–2 cm and a RMS of about 10 cm. In the upright configuration, the leveling differences may include errors in the GNSS antenna phase center calibration, which are avoided in our technique but not in the classical surveying techniques. These results demonstrate the usefulness of the reflectometry technique to obtain precisely and remotely the leveling between a GNSS antenna and a tide gauge. In addition, this technique can be applied continuously, providing an independent and economical means to monitor the stability of the tide gauge zero. 相似文献
15.
H. Broers H. Hemken T. Luhmann P. Ritschl 《ISPRS Journal of Photogrammetry and Remote Sensing》2002,56(5-6)
For the total replacement of the knee joint, the precise reconstruction of the mechanical axis is significantly determined by the alignment of the cutting tool with respect to the rotation centre of the femur head. Operation techniques supported by navigation allow for the precise three-dimensional location of the hip centre by cinematic analysis.Recent results permit the reconstruction of the femur axis to be better than 0.7°. Therefore, conventional verification methods such as the post-operative recording of the complete leg are not suitable due to their limited system accuracy of about 2°.As the femur head cannot be accessed directly during the operation, an X-ray method has been used to verify alignment. The paper presents a method and the results achieved for the calibration of a C-arm system by introducing photogrammetric parameters. Since the method is used during operation, boundary conditions such as minimal invasive surgical intervention and sterility have been considered for practical applications of patients. 相似文献
16.
由于天线本身的特性及机械加工等原因,GPS卫星和接收机天线相位中心与其几何中心不重合,从而产生相位中心偏差。某些类型的天线该偏差甚至可达数cm,直接影响高精度GPS测量的精确可靠性[1]。讨论了GAMIT软件在高精度GPS数据处理中进行天线相位中心改正的原理、方法和策略,结合美国IGS观测站及南加州区域站观测数据,对改正方法及策略进行了实验对比与分析。结果表明:对接收机天线相位中心和卫星天线相位中心采用模型改正,而卫星天线相位中心偏移不改正,所得到的基线解算结果较好[2];地面接收机天线方位角的变化对U方向的基线解算结果有较大影响,在高精度GPS测量中,必须进行天线方位角的变化改正。 相似文献
17.
Estimation of elevation-dependent satellite antenna phase center variations of GPS satellites 总被引:16,自引:7,他引:9
A method for the estimation of the phase center variations of GPS satellite antennas using global GPS data is presented. First estimations have shown an encouraging repeatability from day to day and between satellites of the same block. Thus, two different satellite antenna patterns for Block II/IIA and for Block IIR with a range of about 4 cm and an accuracy of less than 1 mm could be found. The present approach allows the creation of a consistent set of receiver and satellite antenna patterns and phase center offsets. Thereby, it is possible to switch from relative to absolute phase center variations without a scale problem in global networks. This changeover has an influence on troposphere parameters, reduces systematic effects due to uncorrect antenna modeling and should diminish the elevation dependence of GPS results.
AcknowledgmentsThe authors thank Prof. G. Seeber (University of Hannover) and Dr. G. Wübbena (Geo++ GmbH) and their groups for their kindness in making available the absolute field calibration results derived from robot measurements. 相似文献
18.
GPS接收机天线相位中心偏差参数检测方法的改进 总被引:1,自引:0,他引:1
对文献[1]介绍的GPS接收机天线相位中心偏差参数检测的一般方法,在计算方法上作了简化,使概念更加明确;为确保偏差参数和基线分量的估值计算无误,对检测步骤作适当修改,所得结果仍与原步骤计算结果相同,但计算过程提供了上、下半测回较差的检核,提高了检测的可靠性。 相似文献
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