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Method for separating gravity and magnetic field in DCT domain

A separation method and magnetic field technology, which is applied in the field of gravity and magnetic field separation, can solve the limitations, do not involve the gravity and magnetic field space self-similarity or multi-fractal characteristics of the gravity and magnetic field separation method, and achieve the effect of effective separation and strong decorrelation ability

Active Publication Date: 2010-03-24
BEIJING RES INST OF URANIUM GEOLOGY
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Problems solved by technology

[0004]At present, the application of DCT at home and abroad is mainly limited to the fields of seismic data processing and image compression
In 2005, Zhang Fengxu et al. applied DCT to the gravity and magnetic data processing for the first time, and studied the conventional processing methods such as upward continuation and derivation of the gravity field in the DCT domain, but did not involve the spatial self-similarity or multifractal characteristics of the gravity and magnetic field and the relationship with The related gravitational and magnetic field separation method

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  • Method for separating gravity and magnetic field in DCT domain
  • Method for separating gravity and magnetic field in DCT domain
  • Method for separating gravity and magnetic field in DCT domain

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Embodiment Construction

[0032] A gravity and magnetic field separation method in the DCT domain provided by the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0033] Such as figure 1 As shown, a gravity and magnetic field separation method in the DCT domain includes the following steps:

[0034] (1) Perform grid processing on the two-dimensional discrete gravity and magnetic measurement data measured in the field by conventional gravity and magnetic measuring instruments to form regular grid data;

[0035] (2) Utilize Discrete Cosine Transform (DCT), the grid data formed in the step (1) is transformed into the DCT domain from the space domain, obtain the frequency spectrum data of the original data in the DCT domain;

[0036] The formula used when carrying out the discrete cosine positive transform in step (2) is shown in the following formula (1):

[0037] C ( u ...

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Abstract

The invention belongs to the field of processing of gravity and magnetic data, in particular discloses a method for separating a gravity and magnetic field in a DCT domain, which comprises the following steps: carrying out gridding treatment on two-dimensional discrete gravity and magnetic data obtained by field measurement, and forming regular grid data; converting the grid data into the DCT domain from a space domain, and obtaining a frequency spectrum of original data; setting n different threshold values En, and counting an area An surrounded by all sets, the energy spectrum values of which are larger than En; drawing a logEn-logAn bilogarithmic graph in a rectangular Cartesian coordinate system, using a least square method to fit a plurality of straight-line segments with different slopes, and determining an energy spectrum boundary value of a filter according to the energy spectrum value corresponding to the intersection point of the straight-line segments; carrying out filteringtreatment on the gravity and magnetic field according to the determined energy spectrum boundary value; and carrying out the inverse discrete cosine transform to the filtering result and converting the filtering result into the space domain from the DCT domain to acquire the separating result of the original data. The method of the invention has stronger decorrelation ability, fully considers thespatial self-similarity or multi-fractal characteristics of the gravity and magnetic field, and can effectively separate the gravity and magnetic field from a local field.

Description

technical field [0001] The invention belongs to the field of gravity and magnetic data processing, and in particular relates to a gravity and magnetic field separation method in a DCT domain. Background technique [0002] The separation of regional field and local field is one of the important contents of gravity and magnetic data processing. In the 1950s, the introduction of discrete Fourier transform (DFT), especially the advent of fast Fourier transform (FFT) in 1965, freed gravity and magnetic data processing from complex space domain operations, and also made DFT In-domain filtering methods have become the main method for gravity and magnetic field separation, such as commonly used high-pass and low-pass filters. These filtering methods are often based on the magnitude of the frequency, but in fact the same type of geological bodies will have different frequencies. On the contrary, geophysical fields with the same frequency may not reflect similar geological phenomena,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V7/06
Inventor 柯丹韩绍阳田华刘祜李必红
Owner BEIJING RES INST OF URANIUM GEOLOGY
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