共查询到17条相似文献,搜索用时 140 毫秒
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起算点精度对GPS基线解算质量的影响 总被引:1,自引:0,他引:1
基线处理时要求知道一个点的坐标,其精度对GPS基线的解算结果有影响。采用实测数据研究起算点精度对GPS基线解算质量的影响,得出了其影响规律,同时给出了提高起算点精度的方法。 相似文献
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为了评估北斗卫星导航系统(BDS)用于验潮站沉降监测的可靠性和精度,该文利用北海区沿海8个验潮站2022年全年的GPS和BDS观测数据,从基线解标准均方根误差、基线重复性和GPS与BDS基线互差等方面对GPS和BDS解算结果进行对比分析。结果表明,BDS基线解的NRMS值在0.17~0.25之间,GPS基线解的NRMS值在0.18~0.23之间,二者基线解的NRMS值基本相当;GPS基线解的长度和各分量基线重复率平均值要小于BDS,从GNSS网固定误差和比例误差看,GPS和BDS的基线长度重复性精度达到10-9~10-8量级,基线东西和南北分量重复性达到10-9量级,基线垂直分量重复性精度达到10-7~10-8量级。在GPS和BDS基线结果互差方面,GPS解算得到的基线长度均要大于BDS,二者平均差值为10.7 mm;东西分量差值最小,其次是南北分量,垂直分量差异最大,南北分量、东西分量和垂直分量差值平均值分别为-8.5 mm、-3.7 mm和10.6 mm。南北分量、东西分量、垂直分量和基线长度差值平均值最大值分别为23.6 mm、20.9 mm、30.4 mm和22.1 mm。总体... 相似文献
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应用GPS技术对杭州湾跨海大桥进行首级控制网测量,结果表明:(1)合理布设GPS控制网,并采用设置深桩固埋测量标志、增加有效观测时间、加强数据可靠性与精确性的检验、选择科学及合理的坐标系统等方法,可提高观测数据的质量和精度。同时,对观测数据采用Bernese高精度基线处理软件和精密星历进行基线解算、网平差和坐标转换,保证了杭州湾跨海大桥首级控制网的精度在厘米级之内,使成果的质量达到优良。(2)Bernese基线数据的闭合环及复测基线的检核表明:同步环、异步环闭合差量值及复测基线互差量值全部符合限差要求,且在允许值的1/3以内的基线环数分别占93.3%、77.7%和100%,其成果精度达到优良。(3)GPS控制网的控制点点位的中误差全部满足±20mm的技术设计要求,并且有96.6%的控制点点位中误差在限差的1/3范围以内,精度较高。使用精密星历和广播星历两种不同的数据处理方法进行数据处理,其坐标互差吻合得较好,全部互差值均在限差允许值的1/2范围以内,且使用精密星历计算的成果精度明显高于使用广播星历计算的成果精度。 相似文献
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利用MATLAB实时处理GPS数据 总被引:1,自引:0,他引:1
利用MATLAB软件环境,现场接收并实时处理海上地球物理调查过程中的GPS定位数据,剔除原始数据中的跳点,处理定位误差。采用样条拟合对测线进行拟合光滑,绘制各步处理结果的图形,并将处理前后的航向、航速数据及由此计算出的Eotvos改正值绘制成的曲线进行比较,结果表明:由原始数据计算得到的定位误差较大,与实际船体航行的轨迹有一定差距,而用经过MATLAB处理后的数据计算得到的定位误差较小,航向、航速等与船体航行的真实航迹接近,由此计算出的Eotvos改正值的精度也达到了海上重力测量中Eotvos改正的要求,保证了地球物理数据的质量。 相似文献
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G. H. Purcell Jr. L. E. Young S. Kornreich Wolf T. K. Meehan C. B. Duncan S. S. Fisher 《Marine Geodesy》2013,36(3-4):255-264
Abstract This article describes the design and initial tests of the GPS portion of a system for making seafloor geodesy measurements. In the planned system, GPS antennas on a floating platform will be used to measure the location of an acoustic transducer, attached below the platform, which interrogates an array of transponders on the seafloor. Since the GPS antennas are necessarily some distance above the transducer, a short‐baseline GPS interferometer consisting of three antennas is used to measure the platform's orientation. A preliminary test of several crucial elements of the system was performed at the Scripps Institution of Oceanography (SIO) in December 1989. The test involved a fixed antenna on the pier and a second antenna floating on a buoy about 80 m away. GPS measurements of the vertical component of this baseline, analyzed independently by two groups using different software, agree with each other and with an independent measurement within a centimeter. The first test of an integrated GPS/acoustic system took place in the Santa Cruz Basin off the coast of southern California in May 1990. In this test a much larger buoy, designed and built at SIO, was equipped with three GPS antennas and an acoustic transducer that interrogated a transponder on the ocean floor. Preliminary analysis indicates that the horizontal position of the transponder can be determined with a precision of about a centimeter. Further analysis will be required to investigate the magnitude of systematic errors. 相似文献
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利用GAMIT/GLOBK软件处理2011年特种监测网的观测数据,将IGS站的选取分10种方案进行试验,计算结果从基线长度变化、测站坐标、NRMS、基线重复率等方面进行了比较。得出利用GAMIT/GLOBK软件处理该特种监测网时的几点建议:建议选取IGS站为GPS网提供参考框架;IGS站选取的数量不一定最多,但空间上应尽量均匀分布;选取7个IGS站时得到较高精度的结果。在日后处理此类型的特种监测网时对IGS站选取具有一定的参考价值。 相似文献
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研究了观测卫星的选择对基线解算质量的影响,介绍了提高基线解算质量的人工选星的基线处理方法,通过人工干预选择卫星,解算结果得到明显改善。 相似文献
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Yun X. Bachmann E.R. McGhee R.B. Whalen R.H. Roberts R.L. Knapp R.G. Healey A.J. Zyda M.J. 《Oceanic Engineering, IEEE Journal of》1999,24(3):396-404
A Small Autonomous Underwater Vehicle Navigation System (SANS) is being developed at the Naval Postgraduate School. The SANS is an integrated Global Positioning System/Inertial Navigation System (GPS/INS) navigation system composed of low-cost and small-size components. It is designed to demonstrate the feasibility of using a low-cost strap-down inertial measurement unit (IMU) to navigate between intermittent GPS fixes. The present hardware consists of a GPS/DGPS receiver, IMU, compass, water speed sensor, water depth sensor, and a data processing computer. The software is based on a 12-state complementary filter that combines measurement data from all sensors to derive a vehicle position/orientation estimate. This paper describes hardware and software design and testing results of the SANS. It is shown that results from tilt table testing and bench testing provide an effective means for tuning filter gains. Ground vehicle testing verifies the overall functioning of the SANS and exhibits an encouraging degree of accuracy 相似文献