Rapid high-precision gravity field forward-modeling method in spherical coordinate system

A spherical coordinate system and gravity field technology, which is applied in the field of fast and high-precision forward modeling of gravity field in a large-scale spherical coordinate system. question

Active Publication Date: 2019-02-22
CENT SOUTH UNIV
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Problems solved by technology

The existing three-dimensional gravity field forward modeling methods in the spherical coordinate system include two-dimensional Gauss-Legendre algorithm, three-dimensional Gauss-Legendre algorithm, Taylor series expansion method, etc.; the above-mentioned methods all have the disadvantages of low forward modeling efficiency and poor calculation accuracy , seriously restricting the widespread use of large-scale gravity field inversion
[0005] For example, the traditional three-dimensional Gaussian Legendre algorithm is very time-consuming, especially when the numerical accuracy is improved by adding Gau

Method used

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  • Rapid high-precision gravity field forward-modeling method in spherical coordinate system
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  • Rapid high-precision gravity field forward-modeling method in spherical coordinate system

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Embodiment 1

[0066] Embodiment 1 (adopting the inventive method)

[0067] Step 1) as in figure 1 As shown, the underground three-dimensional field source is divided into multiple regular tesseroid units at equal intervals, and each tesseroid unit is surrounded by three pairs of curved surfaces, that is, a pair of concentric curved surfaces (r 1 = const, r 2 = const), a pair of meridian sections (λ 1 = const, lambda 2 =const), a pair of coaxial conical planes Then calculate the gravitational response of a single tesseroid unit body at an observation point P outside the field source, where the gravity position V and gravitational acceleration g generated by the Qth tesseroid unit body at point P α and the gravity gradient tensor g αβ Expressed as follows respectively:

[0068]

[0069]

[0070]

[0071] where α, β ∈ {x, y, z}, ρ q is the density of the Qth tesseroid unit body, G is the gravitational constant, δ αβ is the Kronecker symbol, if α=β, then δ αβ =1, if α≠β, then...

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Abstract

The invention provides a rapid high-precision gravity field forward-modeling method in the spherical coordinate system. An underground field source is divided into ruled unit bodies at equal interval,whether one unit body is dissected into a proper size is determined by determining relation between the distance from an observation point to the central point of the unit body and lengths of the unit body in the radial, broadwise and warpwise directions, gravity response of each unit body in the observation point P beyond the field source body is calculated, the gravity potential V, the gravityacceleration galpha and the gravity gradient tensor galphabeta are represented in a matrix multiplying form, a calculation process can be simplified by utilizing the equivalence of a kernel matrix, kernel matrix elements can be obtained rapidly from one kernel matrix element, the gravity response of the multiple unit bodies is accumulated according to the superposition performance of the gravity field, and a gravity field generated in the point P by all substances underground is obtained. Thus, less fewer is occupied by introducing a kernel matrix equivalence strategy and an adaptive fine-dissection strategy, and the calculation efficiency and forward-modeling precision are improved greatly.

Description

technical field [0001] The invention relates to the technical field of geophysics, in particular to a fast and high-precision forward modeling method for gravity field in a large-scale spherical coordinate system; the method improves the calculation efficiency by two orders of magnitude by introducing the kernel matrix equivalence strategy, and at the same time greatly reduces the The method also reduces the relative error during calculation by introducing an adaptive subdivision strategy, which greatly improves the accuracy of forward modeling. Background technique [0002] Gravity exploration, as the most basic geophysical method, has been widely used in technical fields such as terrain correction, hydrogeological survey, geoid survey, solid mineral resource exploration, lithosphere crust and mantle structure research, etc. Since the gravity field data obtained through measurement are closely related to subsurface density anomalies, the data can be directly used to invert ...

Claims

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Application Information

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IPC IPC(8): G01V7/00
CPCG01V7/00
Inventor 赵广东柳建新陈波
Owner CENT SOUTH UNIV
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