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Method for high-resolution determination of seismic event P-wave reverse azimuth and slowness

An inverse azimuth, high-resolution technology, applied in the field of P-wave processing of seismic events, can solve the problem of low resolution of P-wave inverse azimuth and slowness parameters, inconvenient analysis, observation, and inability to distinguish P-wave inverse azimuth and slowness parameters. Slowness parameters and other issues to achieve high-resolution effects

Active Publication Date: 2019-01-04
ANHUI WANTAI GEOPHYSICAL TECH
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Problems solved by technology

[0004] The purpose of the present invention is to solve the problem that the resolution of the P-wave inverse azimuth and slowness parameters of seismic events is determined by the method of frequency domain beamforming (FK) or time domain beamforming (beamforming), which is not convenient for staff to analyze and view , and the P-wave inverse azimuth and slowness parameters of multiple seismic events cannot be distinguished by FK or beamforming methods, and a method for determining the P-wave inverse azimuth and slowness of seismic events with high resolution is proposed

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  • Method for high-resolution determination of seismic event P-wave reverse azimuth and slowness
  • Method for high-resolution determination of seismic event P-wave reverse azimuth and slowness
  • Method for high-resolution determination of seismic event P-wave reverse azimuth and slowness

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Embodiment Construction

[0039] Such as figure 1 As shown, a method for determining the P-wave inverse azimuth and slowness of a seismic event with high resolution, the method specifically includes the following steps:

[0040] Step 1: Assume that the array is composed of N stations, take the station closest to the center of the array as the reference station, and set it as the origin;

[0041] Step 2: Read the vertical component seismic displacement waveform records of N stations, and perform instrument response removal, mean value removal processing on the records, and resample to the same sampling rate;

[0042] Step 3: Align the waveform records of all stations in step 2 according to the bursting time, and select the time window;

[0043] Step 4: Perform Fourier transform after windowing the selected seismic records to obtain the record spectrum, that is, the observation vector d(f);

[0044] Step 5: Parameterize the slowness and back azimuth, select the range of slowness and back azimuth for un...

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Abstract

The invention discloses a method for high-resolution determination of seismic event P-wave reverse azimuth and slowness. The working steps of the method are that: supposing that the array is composedof N stations, taking the nearest station from the center of the array as the reference station and setting the station as the origin; the vertical component seismic displacement waveform records of the N stations are read, and instrument response removing and de-mean processing is performed on the records and the same sampling rate is obtained through resampling; the waveform records of all the stations in the step 2 are aligned according to the transmitting array time and the time window is selected; and the selected seismic records are windowed and subjected to Fourier transform so as to obtain the record spectrum, i.e. the observation vector. The method has the beneficial effects that the high-resolution seismic event P-wave reverse azimuth and slowness parameters can be provided by the method in comparison with the conventional station array FK algorithm; and the P-wave reverse azimuth and slowness parameters of the seismic event can be inversed quickly by using the constraint ofthe sparse characteristic of the sources in space distribution.

Description

technical field [0001] The invention belongs to the field of P-wave processing of seismic events, and relates to a seismic array data processing method, in particular to a method for determining the inverse azimuth and slowness of P-waves of seismic events with high resolution. Background technique [0002] The P wave in the seismic event is the longitudinal wave, and the P wave is the wave that is emitted from the source and refracted and propagated all the way. It is the first wave in the teleseismic measurement. [0003] Usually, methods for determining the P-wave inverse azimuth and slowness parameters of seismic events include frequency-domain beamforming (FK) and time-domain beamforming. For frequency-domain beamforming (FK) or time-domain beamforming (beamforming) methods to determine the P-wave back azimuth and slowness parameters of seismic events, the resolution is low, which is not convenient for staff to analyze and view, and through FK or beamforming The method...

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Application Information

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IPC IPC(8): G01V1/30
CPCG01V1/307G01V2210/63
Inventor 张海江胡景
Owner ANHUI WANTAI GEOPHYSICAL TECH
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