Quality control method and system for shotpoint firing

By combining the quality control analysis module with the fiber optic sensing component, the firing quality of the shot point can be judged in real time, which solves the problem that seismic acquisition instruments cannot perform real-time quality control and improves the efficiency and quality of geophysical exploration.

CN122260460APending Publication Date: 2026-06-23CHINA NAT PETROLEUM CORP +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
CHINA NAT PETROLEUM CORP
Filing Date
2024-12-23
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing seismic acquisition instruments cannot perform real-time quality control on the excitation status of shot points, affecting the excitation production efficiency and quality of geophysical exploration.

Method used

A quality control analysis module is connected to a fiber optic sensing component to receive seismic data in real time and compare the quality control results to determine whether the excitation quality of the shot point meets the expected requirements. The excitation effectiveness is judged by the quality control parameters of the fiber optic seismic data.

Benefits of technology

It enables real-time quality control of the firing state at the shot point, improving the firing efficiency and quality of geophysical exploration.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present disclosure relates to the field of geophysical exploration technology, and discloses a quality control method and system for shotpoint excitation. The method is applied to a quality control analysis module and comprises: for each target shotpoint in a to-be-tested region, in response to an excitation module of an excitation assembly being excited at the target shotpoint position, real-time receiving optical fiber seismic data from a seismic data processing module, wherein the to-be-tested region has at least one target shotpoint, and the to-be-tested region has seismic instruments being collected; comparing whether the quality control result of the optical fiber seismic data meets the expected requirement to determine whether the excitation quality of the shotpoint meets the requirement; and in response to the excitation quality of the shotpoint meeting the requirement, determining that the excitation of the target shotpoint is effective. The method can solve the problem that the current seismic instruments cannot perform real-time quality control on the excitation state of the shotpoint, and improve the excitation production efficiency and quality of geophysical exploration.
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