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Least-square collocation model of satellite gravity gradient tensor diagonal three-component inversion earth gravity field and modeling method

A gravity gradient and earth gravity technology, applied in the field of satellite gravity measurement, can solve problems such as not taking into account the inversion contribution of the earth's gravity field, dissatisfied with the orthogonality rule of the football harmonic function, and unable to directly determine the earth's gravity field, etc.

Inactive Publication Date: 2018-10-16
中国人民解放军61540部队
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Problems solved by technology

[0013] Disadvantages: Among the three diagonal components of the satellite gravity gradient tensor, the largest magnitude is T zz Portion, T xx , T yy Portion next
However, only T zz Components, not taking into account T xx , T yy Contribution of the components to the inversion of the Earth's gravitational field
[0014] due to T xx , T yy The component is not satisfied with the orthogonality law of the football harmonic function, so it cannot be directly used to determine the earth's gravitational field

Method used

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  • Least-square collocation model of satellite gravity gradient tensor diagonal three-component inversion earth gravity field and modeling method
  • Least-square collocation model of satellite gravity gradient tensor diagonal three-component inversion earth gravity field and modeling method
  • Least-square collocation model of satellite gravity gradient tensor diagonal three-component inversion earth gravity field and modeling method

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Embodiment Construction

[0066] Utilize the 45 ' * 45 ' global satellite gravity gradient grid average data that contains 0.5mE zero-mean white noise, to the single component T that the present invention derives zz and combined component T xx +T yy , T zz -T xx -T yy The effectiveness of the least squares configuration method model is tested, and the corresponding gravity field model order error RMS, cumulative geoid and gravity anomaly error are as follows figure 2 As shown, the following table 1 shows the single component T zz and combined component T xx +T yy , T zz -T xx -T yy The data restores the precision statistics results corresponding to the 120-order gravity field model.

[0067] Table 1 The precision statistical results of the 120-order gravity field model recovered from satellite gravity gradient tensor single component and combined component data

[0068]

[0069] from figure 2 and Table 1 it can be seen that T zz -T xx -T yy The accuracy of the combined component cal...

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Abstract

The invention discloses a least-square collocation model of a satellite gravity gradient tensor diagonal three-component inversion earth gravity field and a modeling method, and belongs to the field of satellite gravity measurement. The method comprises the steps that starting from an orthogonality rule of a spherical harmonics function, Txx and Tyy components and Tzz, Txx and Tyy components are combined separately, practical calculation formulas of auto-covariance and cross covariance functions among the satellite gravity gradient tensor diagonal three-components and covariance functions of the components and gravitational potential coefficients are derived, and then the least-square collocation model of the Txx and Tyy two-component and Tzz, Txx and Tyy three-component inversion earth gravity fields is obtained. Accordingly, the theoretical basis is provided for fully utilizing the satellite gravity gradient tensor diagonal three-component inversion earth gravity field, and data resources of a gravity gradient measurement satellite GOCE launched by the ESA are fully utilized.

Description

Technical field: [0001] The invention discloses a least square configuration method model and a modeling method for retrieving the earth's gravity field by the three-component diagonal line of the satellite gravity gradient tensor, belonging to the field of satellite gravity measurement. Background technique [0002] The expression of the geocentric spherical coordinates of the three diagonal components of the satellite gravity gradient tensor is: [0003] [0004] [0005] [0006] Among them, T zz , T xx , T yy respectively represent the three components of the satellite gravity gradient tensor in the x, y, and z directions, the x-axis points south, the y-axis points east, and the z-axis and the x, y axes form a right-handed coordinate system, that is, a local north-pointing coordinate system; fM represents The gravitational constant of the earth; r represents the geocentric radius of the calculation point; θ and λ represent the co-latitude and geocentric longi...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V7/06
CPCG01V7/06
Inventor 刘晓刚肖云管斌张丽萍吴娟庞振兴
Owner 中国人民解放军61540部队
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