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GOCE梯度数据坐标系转换及误差分析 被引量:3

COORDINATE SYSTEM CONVERSION OF GOCE GRADIENTS DATA AND ERROR ANALYSIS
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摘要 分析逐点旋转法模型转换过程中误差对转换结果的影响,给出了梯度张量的转换策略。处理结果表明,GOCE的姿态误差满足设计要求,但GOCE梯度张量观测数据质量非常差,包含大量的低频有色噪声,在转换前需要对观测数据进行滤波处理,且采用"移去-恢复"方法能显著提高梯度数据的转换精度。 The gravitational gradients along the orbit observed by GOCE satellite is given in the gradiometer coordinate system(GRF) while the Earth' s gravity field model from gradients is generally in non-instrument coordinate system. Due to GOCE can not measure full tensor gradient efficiently, it is necessary to replace Vxy, Vrz as model values and to converse coordinate system of gradient. Therefore, in the rotation process, the error of the gradients data and the error of the rotation matrix have be taken into account. A pointwise rotation model of gradients in various coordinate systems and analysis the impact of various errors in conversion process of gradients were described, and gradients tensor rotation strategy is discussed simultaneously. Actual processing results show that the attitude error of the GOCE meets the design requirements, but the quality of GOCE gradients tensor, is not good for containing a large number of low-frequency colored noises, which needs to filter before conversion. In addition," remove-restore" method can significantly improve the accuracy.
作者 苏勇 范东明 黄强
机构地区 西南交通大学地球科学与环境工程学院
出处 《大地测量与地球动力学》 CSCD 北大核心 2014年第3期151-154,159,共5页 Journal of Geodesy and Geodynamics
基金 高等学校博士学科点专项科研基金项目(2012018412006) 中央高校基本科研业务费专项资金项目(SWJTU10ZT02 SWJTU12BR012) 西南交通大学博士研究生创新基金项目
关键词 GOCE卫星 引力梯度 梯度张量转换 逐点旋转法 误差分析 GOCE satellite gravitational gradient tensor rotation point-wise rotation error analysis
分类号 P223.0 [天文地球—大地测量学与测量工程]
作者简介 苏勇,男,1987年生,博士研究生,主要研究方向为卫星重力测量。E—mail:suyongme@foxmail.com.
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参考文献19

  • 1Bruinsma S L,et al.GOCE gravity field recovery by means of the direct numerical method[ C ].ESA Living Planet Sympo-sium,Bergen,Norway,2010.
  • 2Pail R,et al.Global gravity field model derived from orbit and gradiometry data applying the time-wise method [ C ].ESA Living Planet Symposium,Bergen,Norway,2010.
  • 3Migliaccio F M,et al.The space-wise approach and first space-wise gravity field model [ C ].ESA Living Planet Sym-posium,Bergen,Norway,2010.
  • 4于锦海,赵东明.引力梯度不变量与相关边界条件[J].中国科学(D辑),2010,40(2):178-187. 被引量:9
  • 5于锦海,万晓云.利用引力梯度不变量解算的GOCE引力场模型[J].中国科学:地球科学,2012,42(9):1450-1458. 被引量:10
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二级参考文献66

  • 1YU JinHai1,2,3 & ZHAO DongMing4 1 College of Earth Science, Graduate University of Chinese Academy of Sciences, Beijing 100049, China,2 Institute of Geodesy and Geophysics, Chinese Academy of Sciences, Wuhan 430077, China,3 State Key Laboratory of Astronautic Dynamics, Xi’an 710043, China,4 Zhengzhou Institute of Surveying and Mapping, Zhengzhou 450052, China.The gravitational gradient tensor’s invariants and the related boundary conditions[J].Science China Earth Sciences,2010,53(5):781-790. 被引量:7
  • 2于锦海,彭富清.超定大地边值问题的变分解及相关理论[J].中国科学(D辑),2007,37(1):39-45. 被引量:2
  • 3吴国乔,王兆华.基于全相位的零相位数字滤波器的设计方法[J].电子与信息学报,2007,29(3):574-577. 被引量:21
  • 4Pail R, Plank G. Assessment of three numerical solution strategies for gravity field recovery from GOCE satellite gravity gradiometry implemented on parallel platform. J Geodesy, 2002, 76:462-474.
  • 5Pail R. A parametric study on the impact of satellite attitude errors on GOCE gravity field recovery. J Geodesy, 2005, 79:231-241.
  • 6Holota P. Boundary value problems and invariants of the gravitational tensor in satellite gradiometry. In: Sanso F, Rummel R, eds. Theory of Satellite Geodesy and Gravity Field Determination. Lecture Notes Earth Sci, 1989, 25:447-457.
  • 7Sacerdote F, Sanso F. Some problems related to satellite gradiometry. Bull Geodesy, 1989, 63:405-415.
  • 8Vermeer M. Observable quantities in satellite gradiometry. Bull Geodesy, 1990, 64:347-361.
  • 9Baur O, Sneeuw S, Grafarend E W. Methodology and use of tensor invariants for satellite gravity gradiometry. J Geodesy, 2008, 82: 279- 293.
  • 10Yu J H, Jekeli C, Zhu M. Analytical solutions of the Dirichlet and Neumann boundary value problems with an ellipsoid boundary. J Geodesy, 76:653-667.

共引文献34

同被引文献14

引证文献3

二级引证文献10

大地测量与地球动力学
2014年 第3期

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