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一种高精度实时GPS卫星钟差预测算法 被引量:3

Real-time Prediction Algorithm for High-accuracy GPS Satellite Clock Offset
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摘要 为获得高精度实时GPS卫星钟差,文章提出一种基于多项式和最小二乘支持向量机(Least Squares Support Vector Machines,LS-SVM)相结合的钟差预报方法。该方法采用国际GNSS服务发布的超快速观测星历建模进行短期预报,首先根据卫星钟的物理特性用附有周期项的多项式模型进行拟合以提取趋势项和周期项,然后用LS-SVM对多项式拟合残差进行建模预报,最后将预报结果加上趋势项和周期项,得到最终的钟差预报值。试验结果表明,所提算法能够实时有效地对GPS卫星钟差进行预报,且精度优于超快速预报星历。 In order to get real-time GPS clock products of high accuracy, a new prediction algorithm was proposed, which incorporated a polynomial model with a few cyclic terms and least squares support vector machines (LS-SVM) for clock offset. Firstly, a polynomial model adding a few cyclic terms was utilized to fit the clock offset series according to the physical characteristics of satellite clocks so as to extract the trend term and periodic term. Then, the polynomial fitting residuals were modeled based on the LS-SVM. Finally, the trend term and periodic term were added to the forecasted residual result to produce the final prediction value for the clock offset. The IGS ultra-rapid observed (IGU-O) products were employed as the initial values of the prediction strategy. The simulation results demonstrate that the proposed algorithm can be used to predict clock offset with high accuracy in real-time, and outperforms the IGS ultra-rapid predicted (IGU-P) solutions at least on a daily basis.
作者 雷雨 李变 赵丹宁 胡永辉
机构地区 中国科学院国家授时中心 中国科学院时间频率基准重点实验室
出处 《中国空间科学技术》 EI CSCD 北大核心 2014年第4期39-45,共7页 Chinese Space Science and Technology
基金 国家自然科学基金(11103025)资助项目
关键词 最小二乘支持向量机 超快速星历 预报模型 GPS卫星钟 Least squares support vector machines Ultra-rapid ephemeris Predictionmodel GPS satellite clocks
分类号 P228.4 [天文地球—大地测量学与测量工程]
作者简介 雷雨1983年生,2010年获中国科学院大学天体测量与天体力学专业硕士学位,博士研究生,助理研究员。研究方向为GNSS时间传递、世界时测量与预报。
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参考文献15

  • 1HAUSCHILD A, MONTENBRUCK. Kalman-fiher-based GPS clock estimation for near real-time positioning [J]. GPS Solutions, 2009, 13(3): 173 -182.
  • 2GEM R, CHEN J P, DOUSA J, et al. A computationally efficient approach for estimating high-rate satellite clock correction in realtime [J]. GPS Solutions, 2012, 16(1): 9-17.
  • 3GAO Y, CHEN K. Performance analysis of precise point positioning using real time orbit and clock products [J]. Journal of Global Positioning System, 2005, 3(1-2): 95-100.
  • 4BROEDERBAUER V, OPIZE M, WEBER R. Automated quasi-realtime prediction of GNSS clock corrections [J]. Geoinf, 2007, 95(2): 53-58.
  • 5ZHENG Z Y, CHEN Y Q, LU X S. An improved grey model and its application research on the prediction of real-time GPS satellite clock errors [J]. Chinese Astronomy and Astrophysics, 2009, 33(1): 72-89.
  • 6HEO Y J, CHO J, HEO M B. Improving prediction accuracy of GPS satellite clock with periodic variation behaviour [J]. Measurement Science and Technology, 2010, 21(7): 531-539.
  • 7HUANG G W, ZHANG Q. Real-time estimation of satellite clock offset using adaptively robust Kalman filter with classified adaptive factors [J]. GPS Solutions, 2012, 16(4): 531 -539.
  • 8XU B, WANG Y, YANG X H. A hybrid model for navigation satellite clock error prediction [J]. Computational Intelligence, 2013, 465: 307-316.
  • 9HUANG G W, ZHANG Q, XU G C. Real-time clock offset prediction with an improved model [J]. GPS Solutions, 2014, 18(1): 95- 104.
  • 10SUYKENS J, VANDEWALLE J. Recurrent least squares support vector machine classifiers [J]. IEEE Transaction on Circuits and Systems, 2000, 47(7): 1109-1114.

同被引文献17

引证文献3

二级引证文献9

中国空间科学技术
2014年 第4期

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