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Stratum structure curvature estimation method that combines gradient structure tensor with multi-window analysis

A gradient structure and gradient vector technology, applied in the field of exploration geophysics, can solve the problems of large influence of human interference factors, large curvature estimation error, limited accuracy and limited apparent dip sampling interval, etc.

Active Publication Date: 2018-09-18
XI AN JIAOTONG UNIV
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Problems solved by technology

[0008] Disadvantages: 1. Picking layers requires the assistance of software
[0009] 2. The formation curvature can only be calculated for the target horizon, not for this 3D seismic data volume
[0010] 3. It is greatly affected by human interference factors
[0015] Disadvantages: 1. Because only adjacent channels are used to calculate cross-correlation, it is greatly affected by noise
[0016] 2. The amplitude changes laterally and the error is large when crossing the fault
[0021] Disadvantages: 1. Due to the calculation of similarity or under each set apparent inclination angle, resulting in a large amount of calculation
[0022] 2. The accuracy of inclination estimation is limited by the sampling interval of apparent inclination
[0023] 3. The error is large when the analysis window crosses the fault
[0028] Disadvantages: Large lateral variation of amplitude and large curvature estimation errors when crossing faults

Method used

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  • Stratum structure curvature estimation method that combines gradient structure tensor with multi-window analysis
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  • Stratum structure curvature estimation method that combines gradient structure tensor with multi-window analysis

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Embodiment Construction

[0095] The present invention will be described in further detail below in conjunction with the accompanying drawings and tables.

[0096] The invention is a method for estimating stratum structure curvature using gradient structure tensor and multi-window analysis for three-dimensional post-stack seismic data. In the present invention, the complex seismic trace analysis is first performed on the seismic data to obtain the instantaneous phase, and then the gradient structure tensor is constructed on the instantaneous phase data body and combined with the multi-window analysis technology to estimate the stratum dip angle, and then calculate the spatial derivative of the dip angle, and finally use the dip angle The spatial derivative estimates the structural curvature of 3D post-stack seismic data, and provides more reliable structural curvature attributes for subsequent seismic data interpreters.

[0097] see figure 1 Shown, a kind of stratum structure curvature estimation meth...

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Abstract

The invention discloses a stratum structure curvature estimation method that combines a gradient structure tensor with multi-window analysis; the method comprises the following steps: 1, gathering three dimensional post-stack seismic data, and converting the data so as to obtain a complex seismic trace of each seismic signal; 2, calculating a three dimensional instantaneous phase data volume and an instantaneous phase gradient vector; 3, selecting adjacent analysis windows nearby each sample point; 4, calculating a visual dip angle and similarity in each adjacent analysis window; 5, selectingthe analysis window with the maximum similarity from all adjacent analysis windows, and appointing the corresponding visual dip angle as the visual dip angle of the analysis sample point; 6, determining whether the visual dip angles of all sample points are calculated or not; 7, calculating a partial derivative of the three dimensional visual dip angle data volume; 8, calculating the stratum structure curvature. The method can solve the stability and anti-fault interference problems in the three dimensional growl seismic data stratum structure curvature estimation, is easy to realize, and simple in operation.

Description

technical field [0001] The invention belongs to the field of exploration geophysics, in particular to a method for estimating the geometric curvature of a formation. Background technique [0002] Oil and natural gas are important strategic resources, which play a pivotal role in my country's national economy and national security. Seismic attribute is a measure of seismic exploration data, which can visually enhance features with interpretation significance, and directly reflect formation characteristics and reservoir properties. Therefore, seismic attributes can play an important role in the exploration and development of oil and gas reservoirs. Geometric attribute is one of the most important seismic attributes in seismic data interpretation. It is mainly used to enhance and display the geometric shape of seismic horizons, mainly including dip / azimuth, continuity, and formation curvature. The dip / azimuth attribute body contains important seismic stratigraphy and geograph...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V1/30
CPCG01V1/306
Inventor 王晓凯陈文超师振盛
Owner XI AN JIAOTONG UNIV
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