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1.
Modern geodetic positioning techniques likeVLBI, SLR, andGPS can be used for plate tectonic studies. A very simple model considers a number of rigid plates rotating individually with
a constant rotation rate.
An equally simple mathematical model, extended to deformable plates, is presented, based on vector calculus, which relates
both absolute and relative point positioning observations to the plate rotation and deformation parameters (rotation rate,
direction of rotation vector, deformation rate and direction of deformation center) in a consistent and elementary way. The
determination of these plate parameters from various geodetic positioning observations is outlined. 相似文献
2.
基于全球板块运动模型分析大西洋扩张变化 总被引:1,自引:0,他引:1
基于现代空间测量技术SLR、VLBI和GPS实测资料,解算出大西洋中脊海底扩张速率,其中北大西洋的东西向扩张速率平均为35mm/a,赤道大西洋东西向扩张速度分别为20-25mm/a,南大西洋东西向扩张速率为22-28mm/a,证实全球板块运动的存在及大西洋扩张学说,并基于全球几百万年地质模型NNR-NUVEL1A,北大西洋的东西向扩张速率平均为24.3mm/a,基于最新全球板块运动模型ITRF2000VEL,北大西洋的东西向扩张速率平均为20.8mm/a,总体上大西洋实测东西扩张速度与根据地学资料推出的地球板块运动模型和最新ITRF2000VEL模型的结果基本一致。 相似文献
3.
组合VLBI和SLR数据估计的全球板块运动参数 总被引:4,自引:0,他引:4
本文组合应用VLBI和SLR数据导出了一个完全基于空间技术实测数据的现时板块运动模型,称为SGPMM1。SGPMM1与地学板块运动模型NUVEL-1的比较指出:空间大地测量数据估计的板块运动总体上与地学估计值一致。经过地磁极倒转时间尺度修正,并考虑到冰斯后地壳回弹的影响,空间大地测量数据估计的北美,欧亚和澳大利亚板块之间的相对运动速率与地学估计值有极好的一致,但太平洋板块相对于北美、欧亚和澳大利亚 相似文献
4.
组合GPS和VLBI数据建立板块运动模型 总被引:6,自引:0,他引:6
利用GPS和VLBI的组合数据,解算了北美、欧亚、太平洋等12板块之间的相对运动欧拉矢量,得到了实测的板块运动模型GVM1。与地学模型(NUVEL1A)的比较指出,GVM1大体上与地学模型一致;EURANOAM的极位置与NUVEL1A的相应极比较接近,旋转速率略微偏大;澳大利亚板块在最近几年内是稳定的;太平洋板块与其他板块对的极位置与地学模型较为接近,这表明多种技术的组合数据提高了板块运动模型建立的精确性和可靠性。 相似文献
5.
The mathematical interaction between the simultaneous rotation of both a coordinate frame and a set of physical vectors in that frame is covered and theoretically and empirically explained. A practical example related to the secular motion of the pole determined using recent GPS results is addressed. A least-squares adjustment is introduced to determine a possible displacement of the geodetic north pole of the frame caused by plausible changes in the coordinates of the observing stations defining the frame due to the rotation of the plates on which these stations are located. Two examples of GPS networks are investigated both referred to the latest definition of the IGS08 geodetic frame. The positioning and velocities of the points were exclusively obtained using GPS data as published by the International GNSS Service (IGS). The first case comprises the complete GPS/IGS network of global stations; the second one assumes the closest GPS/IGS stations to the now discontinued International Latitude Service network. The results of this exercise hints at the possibility that the secular global rotation of the frame caused by plate rotations should be accounted for in order to rigorously determine the true absolute velocities referred to the IGS frame before the actual velocities of the rotation of the plates using GPS observations are published. 相似文献
6.
Robust estimation of geodetic datum transformation 总被引:18,自引:1,他引:17
Y. Yang 《Journal of Geodesy》1999,73(5):268-274
The robust estimation of geodetic datum transformation is discussed. The basic principle of robust estimation is introduced.
The error influence functions of the robust estimators, together with those of least-squares estimators, are given. Particular
attention is given to the robust initial estimates of the transformation parameters, which should have a high breakdown point
in order to provide reliable residuals for the following estimation. The median method is applied to solve for robust initial
estimates of transformation parameters since it has the highest breakdown point. A smooth weight function is then used to
improve the efficiency of the parameter estimates in successive iterative computations. A numerical example is given on a
datum transformation between a global positioning system network and the corresponding geodetic network in China. The results
show that when the coordinates are contaminated by outliers, the proposed method can still give reasonable results.
Received: 25 September 1997 / Accepted: 1 March 1999 相似文献
7.
8.
用大地测量资料反演青藏高原构造应力场的初步尝试 总被引:6,自引:2,他引:6
本文讨论了大地测量反演构造应力场的理论与方法。结合青藏高原地质、地球物理资料、利用限单元法,初步建立了青藏高原构造力场三维弹性数值分析模型。用地表水准和GPS资料提供的位移值作为地表边界约束条件,反演计算了青藏高原变场和应力场,数值结果表明,青藏高原构造应力场以南北向挤压为主,东西向拉张为辅,欧亚板块与印度板块相撞作用仍控制着高原现今构造应力场。 相似文献
9.
A global plate motion model is established based on the ITRF97 velocity fields and geological model NUVEL1. Sub-plate models
are estimated by using the velocity fields derived from 45 global positioning system (GPS) sites under the ITRF97 reference
frame in China. Comparisons between space geodesy and geological models are given. It is found that the Euler vector of the
AFRC–EURA pair has an obvious discrepancy between space geodetic and geological models. The motion patterns of tectonic blocks
in China predicted by GPS are consistent with those of geological data on the whole.
Received: 9 November 2000 / Accepted: 17 September 2001 相似文献
10.
In the numerical evaluation of geodetic convolution integrals, whether by quadrature or discrete/fast Fourier transform (D/FFT) techniques, the integration kernel is sometimes computed at the centre of the discretised grid cells. For singular kernels—a common case in physical geodesy—this approximation produces significant errors near the computation point, where the kernel changes rapidly across the cell. Rigorously, mean kernels across each whole cell are required. We present one numerical and one analytical method capable of providing estimates of mean kernels for convolution integrals. The numerical method is based on Gauss-Legendre quadrature (GLQ) as efficient integration technique. The analytical approach is based on kernel weighting factors, computed in planar approximation close to the computation point, and used to convert non-planar kernels from point to mean representation. A numerical study exemplifies the benefits of using mean kernels in Stokes’s integral. The method is validated using closed-loop tests based on the EGM2008 global gravity model, revealing that using mean kernels instead of point kernels reduces numerical integration errors by a factor of ~5 (at a grid-resolution of 10 arc min). Analytical mean kernel solutions are then derived for 14 other commonly used geodetic convolution integrals: Hotine, Eötvös, Green-Molodensky, tidal displacement, ocean tide loading, deflection-geoid, Vening-Meinesz, inverse Vening-Meinesz, inverse Stokes, inverse Hotine, terrain correction, primary indirect effect, Molodensky’s G1 term and the Poisson integral. We recommend that mean kernels be used to accurately evaluate geodetic convolution integrals, and the two methods presented here are effective and easy to implement. 相似文献
11.
Y. Fukuzaki K. Shibuya K. Doi T. Ozawa A. Nothnagel T. Jike S. Iwano D. L. Jauncey G. D. Nicolson P. M. McCulloch 《Journal of Geodesy》2005,79(6-7):379-388
The first successful geodetic Very Long Baseline Interferometry (VLBI) observations to Antarctica were made on baselines from Syowa Station (Antarctica) to Tidbinbilla (Australia) and to Kashima (Japan) in January 1990. Regular geodetic experiments started in 1998 with the installation of a permanent VLBI terminal at Syowa Station. These observations are conducted at the standard geodetic VLBI frequencies of 2.3 and 8.4 GHz, S- and X-Bands. In the first year, the 11-m multipurpose antenna at Syowa Station observed together with the 26-m radio telescope of the University of Tasmania in Australia and the 26-m radio telescope of the Hartebeesthoek Radio Astronomy Observatory in South Africa. From 1999, the experiments were expanded to also include the O’Higgins Station in Antarctica, Fortaleza in Brazil and Kokee on Hawaii. From 1999 until the end of 2003, 25 observing sessions have been reduced and analyzed using the CALC/SOLVE geodetic VLBI data reduction package. The results show that the horizontal baseline of Syowa-Hobart is increasing at the rate of 57.0±1.9 mm/year. The baseline Syowa-Hartebeesthoek is also increasing, but at the lower rate of 9.8±1.9 mm/year. The VLBI result of 2.0±3.1 mm/year and the GPS result of −1.9±0.7 mm/year for the Syowa-O’Higgins horizontal baseline support the hypothesis of one rigid Antarctic plate without intra-plate deformation, which is consistent with the NNR-NUVEL-1A global plate motion model. The location of the Euler pole of the Antarctic plate by VLBI is estimated as 59.7°S and 62.6°E with a rotation rate of 0.190 deg/Myr, while that by GPS in our study is estimated as 60.6°S and 42.2°E with a rotation rate of 0.221 deg/Myr. These pole positions are slightly different to that implied by the NNR-NUVEL-1A model of 63.0°S and 64.2°E with a rotation rate of 0.238 deg/Myr. VLBI observations over a longer time span may resolve small discrepancy of current plate motion from the NNR-NUVEL-1A model. The consistency of the VLBI coordinates with the GPS coordinates at Syowa Station, after correction for the local tie vector components between the two reference markers, is also discussed. 相似文献
12.
Claudio Abbondanza Zuheir Altamimi Pierguido Sarti Monia Negusini Luca Vittuari 《Journal of Geodesy》2009,83(11):1031-1040
Tie vectors (TVs) between co-located space geodetic instruments are essential for combining terrestrial reference frames (TRFs)
realised using different techniques. They provide relative positioning between instrumental reference points (RPs) which are
part of a global geodetic network such as the international terrestrial reference frame (ITRF). This paper gathers the set
of very long baseline interferometry (VLBI)–global positioning system (GPS) local ties performed at the observatory of Medicina
(Northern Italy) during the years 2001–2006 and discusses some important aspects related to the usage of co-location ties
in the combinations of TRFs. Two measurement approaches of local survey are considered here: a GPS-based approach and a classical
approach based on terrestrial observations (i.e. angles, distances and height differences). The behaviour of terrestrial local
ties, which routinely join combinations of space geodetic solutions, is compared to that of GPS-based local ties. In particular,
we have performed and analysed different combinations of satellite laser ranging (SLR), VLBI and GPS long term solutions in
order to (i) evaluate the local effects of the insertion of the series of TVs computed at Medicina, (ii) investigate the consistency
of GPS-based TVs with respect to space geodetic solutions, (iii) discuss the effects of an imprecise alignment of TVs from
a local to a global reference frame. Results of ITRF-like combinations show that terrestrial TVs originate the smallest residuals
in all the three components. In most cases, GPS-based TVs fit space geodetic solutions very well, especially in the horizontal
components (N, E). On the contrary, the estimation of the VLBI RP Up component through GPS technique appears to be awkward,
since the corresponding post fit residuals are considerably larger. Besides, combination tests including multi-temporal TVs
display local effects of residual redistribution, when compared to those solutions where Medicina TVs are added one at a time.
Finally, the combination of TRFs turns out to be sensitive to the orientation of the local tie into the global frame. 相似文献
13.
Ming H. Xu Robert Heinkelmann James M. Anderson Julian Mora-Diaz Maria Karbon Harald Schuh Guang L. Wang 《Journal of Geodesy》2017,91(7):767-781
Closure quantities measured by very-long-baseline interferometry (VLBI) observations are independent of instrumental and propagation instabilities and antenna gain factors, but are sensitive to source structure. A new method is proposed to calculate a structure index based on the median values of closure quantities rather than the brightness distribution of a source. The results are comparable to structure indices based on imaging observations at other epochs and demonstrate the flexibility of deriving structure indices from exactly the same observations as used for geodetic analysis and without imaging analysis. A three-component model for the structure of source 3C371 is developed by model-fitting closure phases. It provides a real case of tracing how the structure effect identified by closure phases in the same observations as the delay observables affects the geodetic analysis, and investigating which geodetic parameters are corrupted to what extent by the structure effect. Using the resulting structure correction based on the three-component model of source 3C371, two solutions, with and without correcting the structure effect, are made. With corrections, the overall rms of this source is reduced by 1 ps, and the impacts of the structure effect introduced by this single source are up to 1.4 mm on station positions and up to 4.4 microarcseconds on Earth orientation parameters. This study is considered as a starting point for handling the source structure effect on geodetic VLBI from geodetic sessions themselves. 相似文献
14.
Annie Souriau Alfred Piuzzi Micheline Etchegorry Philippe Machetel 《Journal of Geodesy》1984,58(1):53-72
One of the possibilities of the Doppler positioning from satellite is to provide geodetic measurements continuous in time
without the need for reference stations. If measurements of sufficient accuracy can be achieved they may be used to study
local surface displacements in relation to tectonic activity. A Doppler receiver of the MEDOC network is located near Djibouti
in the Ghoubhat-Asal rift region which corresponds to the accreting plate boundary between the Arabian and African plates.
In November 1978, a seismic and volcanic crisis occured in this area. Surface geodetic measurements and levellings performed
in 1973 and 1978–79, just after the crisis, reveal a 60–80 cm sinking of the graben floor and a lateral extension of about
2 meters.
Here we analyse Doppler measurements for the period January 1977 to November 1980. Point positions are computed for 7 to 10
day intervals using a precise ephemeris, and a moving window analysis is applied to the data. An apparent 2 meter uplift preceding
the November 1978 seismic crisis is detected at Djibouti, whereas no similar phenomenon is observed at the two closest stations,
Pretoria and Uccle-Brussels. However, field observations rule out a tectonic origin for this uplift.
In Djibouti, the correlation between the apparent vertical station position and the electron density in the ionospheric F-layer
reveals that a bias may be induced by the third order term of the ionospheric refractive index not previously taken into account,
or more probably by the ray curvature through the ionosphere. This bias is particularly strong for our data set, from a station
located close to the magnetic equator, and related to a period of rapid increase in the solar activity.
Although our analysis fails to detect any tectonic displacement related to the rift seismic activity, it shows that similar
tectonic studies by the Doppler method will be possible once the residual ionospheric errors are removed, for example by use
of higher radio frequencies. 相似文献
15.
The AuScope geodetic VLBI array 总被引:1,自引:1,他引:0
J. E. J. Lovell J. N. McCallum P. B. Reid P. M. McCulloch B. E. Baynes J. M. Dickey S. S. Shabala C. S. Watson O. Titov R. Ruddick R. Twilley C. Reynolds S. J. Tingay P. Shield R. Adada S. P. Ellingsen J. S. Morgan H. E. Bignall 《Journal of Geodesy》2013,87(6):527-538
16.
Differential geodetic stereo SAR with TerraSAR-X by exploiting small multi-directional radar reflectors 总被引:1,自引:0,他引:1
Christoph Gisinger Martin Willberg Ulrich Balss Thomas Klügel Swetlana Mähler Roland Pail Michael Eineder 《Journal of Geodesy》2017,91(1):53-67
In this paper, we report on the direct positioning of small multi-directional radar reflectors, so-called octahedrons, with the synthetic aperture radar (SAR) satellite TerraSAR-X. Its highest resolution imaging mode termed staring spotlight enables the use of such octahedron reflectors with a dimension of only half a meter, but still providing backscatter equivalent to 1–2 cm observation error. Four octahedrons were deployed at Wettzell geodetic observatory, and observed by TerraSAR-X with 12 acquisitions in three different geometries. By applying our least squares stereo SAR algorithm already tested with common trihedral corner reflectors (CRs), and introducing a novel differential extension using one octahedron as reference point, the coordinates of the remaining octahedrons were directly retrieved in the International Terrestrial Reference Frame (ITRF). Contrary to our standard processing, the differential approach does not require external corrections for the atmospheric path delays and the geodynamic displacements, rendering it particularly useful for joint geodetic networks employing SAR and GNSS. In this paper, we present and discuss both methods based on results when applying them to the aforementioned Wettzell data set of the octahedrons. The comparison with the independently determined reference coordinates confirms the positioning accuracy with 2–5 cm for the standard approach, and 2–3 cm for the differential processing. Moreover, we present statistical uncertainty estimates of the observations and the positioning solutions, which are additionally provided by our parameter estimation algorithms. The results also include our 1.5 m CR available at Wettzell, and the outcomes clearly demonstrate the advantage of the multi-directional octahedrons over conventional CRs for global positioning applications with SAR. 相似文献
17.
EPC: Matlab software to estimate Euler pole parameters 总被引:1,自引:1,他引:0
The estimation of Euler pole parameters has always been an important issue in global tectonics and geodynamics studies. In addition, the increasing number of permanent GPS stations and the ease of access to their data, along with advances in computers, promise new methods and tools for the estimation and the quantitative analysis of Euler pole parameters. Therefore, we developed the Euler pole calculator software using a set of mathematical algorithms based on the model of tectonic plate motion on a spherical surface. The software is able to calculate the expected velocities for any points located on the earth’s surface given the relevant Euler pole parameters and to estimate the Euler pole parameters given the observed velocities of a set of sites located on the same tectonic plate. Mathematical algorithms and functions of the software are explained in detail. 相似文献
18.
根据板块运动理论,运用空间大地测量方法,建立了监测板块变动的实用数学模型,提出了建立青藏高原地壳运动大地测量监测网的初步方案。 相似文献
19.
A new crustal velocity field for the Alpine Mediterranean area was determined by using a time series spanning 6.5 years of 113 global navigation satellite system (GNSS) permanent stations. This area is characterized by a complex tectonic setting driven by the interaction of Eurasian and African plates. The processing was performed by using a state-of-the-art absolute antenna phase center correction model and by using recomputed precise International GNSS Service orbits, available since April 2014. Thus, a new and more accurate tropospheric mapping function for geodetic applications was adopted. Results provide a new detailed map of the kinematics throughout the entire study area. In some area of the Italian peninsula, such as in the central Apennines, the velocity vector orientation appears rotated with respect to previous results. These discrepancies suggest that the geodynamic setting of this sector of Mediterranean area should be revised in accordance with these new results. 相似文献
20.
精密单点定位(PPP)一般基于非差GPS观测值,其中相位观测所含的初始相位偏差(Initial Phase Biases, IPBs)与整周模糊度不可分离,故各类PPP估值均为模糊度浮点解。目前,借助区域或全球GPS网分离卫星IPBs,改正PPP相位观测值,可实现PPP整周模糊度解算,进而提高各类估值精度,显著缩短收敛时间。常用算法包括:分解卫星钟差(分解钟差法)和非整相位偏差(非整偏差法)估计方法。本文从GPS原始观测值入手,推导了卫星IPBs估计的满秩函数模型,以此为基础对两种算法的特点及实施进行了对比分析。研究表明:分解钟差法是一种观测信息的最优利用,且与传统的卫星钟差估计方法具有较优的一致性,但未利用卫星IPBs较为稳定的有利约束;非整偏差法对组合观测值之间的相关性未加考虑,进而是一种次优估计,其实时性实施较差,且较依赖于高精度的码观测值。文中的新模型可有效克服上述两种算法的不足,便于施加部分参数的合理时变性约束,以提高卫星IPBs估计的可靠性。 相似文献