物探与化探2025,Vol.49Issue(2):385-393,9.DOI:10.11720/wtyht.2025.1191
基于深度学习的二维斜率层析反演模型误差校正方法
A deep learning-based method for error correction of 2D slope tomography-based inversion models
摘要
Abstract
Slope tomography is a method to estimate subsurface velocity macromodels from the slopes and traveltimes of local coherent reflection events.In geologically complex areas,the macromodels obtained from slope tomography tend to yield larger errors.To ad-dress this issue,this study proposed a method for error correction of the models using deep learning.Specifically,with macromodels determined using slope tomography-based inversion serving as input and corresponding theoretical models as labels,a neural network was trained,yielding a nonlinear mapping from the slope tomography-derived macromodel to the corresponding theoretical model.To ensure that the trained neural network was applicable to measured seismic data,the training samples were generated from the inversion model and migration profiles of measured seismic data.Tests based on the data synthesized using the theoratical model validated the ac-curacy and effectiveness of the proposed method.The proposed method was then applied to the 2D measured seismic data from beaches and shallow seas,yielding velocity models with elevated precision and depth migration imaging profiles with high quality.关键词
斜率层析成像/深度学习/误差校正/速度模型/神经网络Key words
slope tomography imaging/deep learning/error correction/velocity model/neural network分类
地质学引用本文复制引用
葛大明..基于深度学习的二维斜率层析反演模型误差校正方法[J].物探与化探,2025,49(2):385-393,9.基金项目
中国石化重大科技项目(P22141) (P22141)
