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Sparse optimization method of suppressing strong shielding interference of seismic data

A seismic data, sparse optimization technology, applied in the field of seismic exploration data processing, can solve problems such as damage, reduction of seismic data resolution, and unclear physical meaning

Active Publication Date: 2017-11-17
XI AN JIAOTONG UNIV
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Problems solved by technology

[0008] 1. This method requires secondary quantification of seismic data, which will reduce the resolution of seismic data and destroy some weak contrast reflection waveform structures
[0009] 2. After the waveform signal is counted by the gray-level co-occurrence matrix, several quantitative description attributes for the value and distribution characteristics of the gray-level co-occurrence matrix elements are formed to indirectly describe the reflected waveform. Since this is a secondary mapping process, its physical meaning is not Unclear, requires geological personnel and interpreters to work together to use various attributes for reservoir characterization and interpretation, bringing complexity to interpretation

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  • Sparse optimization method of suppressing strong shielding interference of seismic data

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Embodiment Construction

[0074] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0075] The invention is a sparse optimization method for suppressing strong shielding interference of seismic data. The reflection waveform structure corresponding to the lateral heterogeneous body such as channel sand body in the two-dimensional seismic section is regarded as the seismic response of the lateral heterogeneous body, and the stable deposition The reflection waveform structure corresponding to the formation is regarded as the seismic response of the stable sedimentary formation. Taking advantage of the differences in morphological characteristics of the two waveform components, two-dimensional stationary wavelet transform and Curvelet transform are respectively selected as sparse representation dictionaries for the seismic responses of lateral heterogeneous bodies and stable sedimentary strata, and a signal separation mod...

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Abstract

The invention discloses a sparse optimization method of suppressing strong shielding interference of seismic data. The method includes: 01, reading original seismic data, and conducting a component analysis on the data; 02, determining two sparse representation dictionaries employed by a morphological component analysis according to the morphological characteristic difference between a seismic response of a transverse heterogeneous body including a river sand body etc. related to a reservoir and a seismic response of a stable sedimentary formation in a seismic record signal, and forming an ultra-complete dictionary; 03, extracting seismic response signals of the transverse heterogeneous body including the river sand body etc. related to the reservoir from a seismic profile after suppressing overlying or underlying formation strong reflection shielding by employing a block coordinate relaxation algorithm; and 04, repeating step 03 until completion of processing of all two-dimensional measuring line data. According to the sparse optimization method of suppressing the strong shielding interference of the seismic data, the strong shielding interference can be effectively and thoroughly suppressed, and the seismic response signals of the transverse heterogeneous body including the river sand body etc. related to the reservoir can be displayed more clearly and visually.

Description

technical field [0001] The invention belongs to the field of seismic exploration data processing, in particular to a sparse optimization method for suppressing strong shielding interference of seismic data. Background technique [0002] Due to the complex and diverse sedimentary forms of fluvial facies, it is easy to form lithologic reservoirs and composite reservoirs of stratigraphic lithology and structure lithology. Accurately predicting the spatial structure and lateral changes of channel deposits is very beneficial to the exploration and development of this kind of oil and gas reservoirs. The collected raw seismic data can be processed by migration imaging to obtain 3D seismic data that can more intuitively reflect the underground geological structure. Using 3D seismic data to characterize the spatial distribution of channel sand bodies is an important content in the interpretation of fluvial facies reservoirs. [0003] In 3D seismic data, the seismic response of stab...

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Application Information

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IPC IPC(8): G01V1/30
CPCG01V1/306G01V2210/624
Inventor 陈文超王伟王晓凯雷江莉陈建友刘达伟徐云
Owner XI AN JIAOTONG UNIV
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