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A Resonance Cell and Its Coupling Method for Earthquake Prediction

A seismic and magnetic resonance technology, applied in seismology, seismic measurement, seismic signal processing, etc., can solve the problems of difficult to use geomagnetic big data and low accuracy of earthquake prediction.

Active Publication Date: 2019-03-29
曾雄飞
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a resonance cell and its coupling method for earthquake prediction, so as to overcome the defects in the prior art that geomagnetic big data is difficult to use in earthquake prediction and the overall accuracy of earthquake prediction is low

Method used

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  • A Resonance Cell and Its Coupling Method for Earthquake Prediction
  • A Resonance Cell and Its Coupling Method for Earthquake Prediction
  • A Resonance Cell and Its Coupling Method for Earthquake Prediction

Examples

Experimental program
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Effect test

Embodiment 1

[0113] Example 1: 2017-05-06 / 16 earthquake

[0114] Here 2017-05-06 / 16 refers to the earthquake that occurred from May 6 to 16. The schedules of the following examples have similar meanings.

[0115] image 3 is the ground resistivity-time curve monitored by Huizhou station, the vertical axis is resistivity, and the horizontal axis is time (UTC, international standard time). Depend on image 3 It can be seen that there was a sudden jump on 2017-05-04, and a second sudden jump occurred on 05-08. According to the Golden Week rules, a number of earthquakes (swarm earthquakes) will occur between 2017-05-06 and 2017-05-16. The time when the sudden jump appears in the QZ-2 graph indicates the arrival of the fast wave of the tidal resonance wave, and then the arrival of the slow wave will be recorded. ) to calculate the epicentral distance △X. Here C=206.593938km / h.

[0116] In addition, the geomagnetic station also has a sudden jump of the geomagnetic resonance signal. MH, B...

Embodiment 2

[0137] Example 2: 2017-05-24 / 06-03 earthquake

[0138] Similar to the method of above-mentioned embodiment 1, Figure 8a , Figure 8b It is the ground resistivity-time curve monitored by Huizhou Station. The time periods represented by the two are different. The former represents the curve from 05-16 to 05-25, and the latter represents the curve from 05-22 to 05-31. It can be seen from the figure that there was a sudden jump on 2017-05-24, and a second sudden jump occurred on 05-28. According to the rules of the Golden Week, a number of earthquakes (swarms) will occur between 05-24 and 06-03.

[0139] For the geomagnetic intensity-time curve of a typical geomagnetic station, see Figure 9 Figure 10 . Figure 9 is the Australian Mac. station, Figure 10 It is Canada's RES station. First of all, the QZ-2 resonant cell made a breakthrough in 05-24, see Figure 8a , indicating that a number of earthquakes will occur. According to calculations, the magnitude of the strong...

Embodiment 3

[0145] Example 3: 2017-06-14 / 23 earthquake

[0146] Similar to the technical method of embodiment 1, Figure 12a and Figure 12b It is the ground resistivity-time curve monitored by Huizhou Station. There was a sudden jump on 2017-06-12 / 13, and a big jump on 06-14. According to the golden week rules, during the period from 06 to 14 / 23, it is predicted that a number of earthquakes (swarms) will occur.

[0147] Other typical geomagnetic wave maps appear similar to resonance waves. Figure 13 , Figure 14 , Figure 15 and Figure 16 They are typical geomagnetic station wave maps of Canada, Chinese Academy of Sciences, Australia, and the United States.

[0148] Based on the typical wave diagrams given above, the data of other stations are further collected, including part of the time tracking data, to draw a ten-day earthquake map. To save space, they are not listed one by one. 2017-06-14 / 23 basic earthquake map, 06-15 has been drawn, see for details Figure 17 . Figure ...

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Abstract

The invention discloses a resonance cell and its coupling method for predicting earthquakes, which includes: obtaining geoelectric resonance cell information, determining the magnitude and epicenter distance based on the geoelectric resonance cell information; obtaining geomagnetic resonance cell information, including geomagnetic fast waves and slow geomagnetic waves in explosion chimneys. The time for the wave to arrive at the monitoring station; determine the magnitude and epicentral distance based on the geomagnetic resonance cell information; determine the circle or arc with each monitoring station as the center and each corresponding epicentral distance as the radius, and use the intersection formed by all circles or arcs as the primary The epicenter location of a specific earthquake; the unique epicenter and strong earthquake sequence of each specific earthquake are determined through screening. This method uses the period of the resonant wave of the seismic inclusion to determine the magnitude, and the growth of the resonant cells determines the time of the earthquake. Quantitative mathematical calculations are used to accurately determine the magnitude, epicenter, and time of earthquakes, and earthquakes can be accurately predicted. Determine the pre-earthquake warning time by using high-frequency resonance waves of explosion chimneys.

Description

technical field [0001] The invention relates to the technical field of earthquake prediction, in particular to a seismic inclusion resonant cell and a method for coupling and predicting earthquakes. Background technique [0002] Earthquake is the most serious natural disaster for thousands of years, and it is also the most serious disaster in China. Human beings most eagerly look forward to predicting earthquakes. Although a very small number of earthquakes have been predicted, the vast majority of earthquakes are still unpredictable and always occur unexpectedly. It was not until Qian Fuye, Zhao Yulin, Zhao Biru and others invented the HRT wave earthquake prediction and monitoring system, also known as the PS100 geoelectric instrument, which introduced CDMA technology to significantly improve the anti-interference ability. Qian Fuye, Zhao Yulin, etc. proposed the HRT wave earthquake prediction method, ushering in the turning point of simultaneously predicting the three el...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/00G01V1/30
CPCG01V1/30G01V1/306G01V2210/6226G01V2210/65G01V1/01
Inventor 曾雄飞曾燕曾江
Owner 曾雄飞