A review of artificial intelligence-based seismic first break picking methods

被引:0
作者
Yi, Simeng [1 ]
Tang, Donglin [1 ]
Zhao, Yunliang [1 ]
Li, Henghui [1 ]
Ding, Chao [2 ]
机构
[1] School of Mechanical and Electrical Engineering, Southwest Petroleum University, Sichuan, Chengdu
[2] School of Intelligent Manufacturing, Chengdu Technology University, Sichuan, Chengdu
来源
Shiyou Diqiu Wuli Kantan/Oil Geophysical Prospecting | 2024年 / 59卷 / 04期
关键词
artificial intelligence; clustering; neural network; seismic exploration; support vector machine(SVM);
D O I
10.13810/j.cnki.issn.1000-7210.2024.04.027
中图分类号
学科分类号
摘要
Seismic first break picking plays a crucial role in providing vital information concerning subsurface structures and seismic activities,thereby holding significance for seismic exploration and geological research. The automatic and accurate picking of first⁃arrival waves from low signal⁃to⁃noise ratio data has garnered consi⁃ derable attention from scholars. This paper provides a comprehensive review of artificial intelligence ⁃ based methods employed for seismic picking. It presents an in⁃depth analysis of the principles,characteristics,and de⁃ velopmental trajectory of five distinct types of methods:clustering,support vector machines(SVM),back⁃ propagation neural network(BPNN),convolutional neural networks(CNN),and recurrent neural networks (RNN). Clustering,SVM and BPNN methods demonstrate a relatively intuitive and interpretable nature,al⁃ beit requiring manual feature extraction. Conversely,CNN and RNN methods possess the ability to autono⁃ mously learn seismic data features,yet they rely on substantial volumes of labeled data to facilitate their learn⁃ ing process. Furthermore,this paper discusses the challenges and future research directions of seismic first break picking. Specifically,it emphasizes the imperative need to further advance the real ⁃ time capabilities for picking first break under extremely low signal⁃ to⁃ noise ratios and to further develop the lightweight of the net⁃ work. © 2024 Editorial office of Oil Geophysical Prospecting. All rights reserved.
引用
收藏
页码:899 / 914
页数:15
相关论文
共 108 条
[1]  
SHENG G, TANG X, XIE K, Et al., Hydraulic frac⁃ turing microseismic first arrival picking method based on non ⁃ subsampled shearlet transform and higher ⁃ order<sub>⁃</sub>statistics, Journal of Seismic Exploration, 28, 6, (2019)
[2]  
ALLEN R V., Automatic earthquake recognition and timing from single traces[J], Bulletin of the Seismo⁃ logical Society of America, 68, 5, (1978)
[3]  
JONES J P., VAN DER BAAN M., Adaptive STA ⁃ LTA with outlier statistics[J], Bulletin of the Seismo⁃ logical Society of America, 105, 3, (2015)
[4]  
SLEEMAN R, VAN ECK T., Robust automatic P ⁃ phase picking: an on ⁃ line implementation in the analy⁃ sis of broadband seismogram recordings, Physics of the Earth and Planetary Interiors, 113, 1, (1999)
[5]  
MAEDA N., A method for reading and checking phase time in auto ⁃ processing system of seismic wave data [J], Zisin (Journal of the Seismological Society of Japan, 2nd ser.), 38, 3, (1985)
[6]  
ZHU M B, WANG L G, LIU X M, Et al., Accurate identification of microseismic P ⁃ and S ⁃ phase arrivals using the multi⁃ step AIC algorithm[J], Journal of Ap⁃ plied Geophysics, 150, (2018)
[7]  
LONG Y, LIN J, LI B, Et al., Fast⁃AIC method for automatic first arrivals picking of microseismic event with multitrace energy stacking envelope summation [J], IEEE Geoscience and Remote Sensing Letters, 17, 10, (2020)
[8]  
BOSCHETTI F, DENTITH M D, LIST R D., A fractal ⁃ based algorithm for detecting first arrivals on seismic traces, Geophysics, 61, 4, (1996)
[9]  
CAO Maosen, REN Qingwen, WAN Linmei, Et al., Length fractal dimension algorithm to pick up seismic waves for the first time, Oil Geophysical Prospec⁃ ting, 5, (2004)
[10]  
WU H, XIAO W, REN H., Automatic time picking for weak seismic phase in the strong noise and interfe⁃ rence environment: an hybrid method based on array similarity, Sensors, 22, 24, (2022)
12345678910