基于MSC-UNet神经网络的三维断层识别方法OA
A 3D fault identification method based on MSC-UNet
在油气勘探中,断层识别作为地震解释的关键环节之一,其精度直接影响勘探效果.然而,传统的人工识别方法在处理海量数据与复杂地质构造时,存在效率低下、精度不足及主观性强等局限,难以满足高效和高精度油气勘探的需求.深度学习技术推动了断层识别的智能化发展,但仍面临小尺度断层信息丢失、多尺度断层提取困难以及噪声干扰三大瓶颈问题.为此,提出了一种基于多尺度混合注意力机制的 MSC-UNet(multiscale spatial channel UNet)断层识别神经网络模型.通过在编码器中引入多尺度特征融合模块,同时提取断层的细粒度边缘细节与粗粒度构造语义,提升跨尺度特征的表征能力.在多尺度特征融合模块之后嵌入并行空间-通道注意力机制模块,模块中空间分支聚焦断层的空间分布,通道分支抑制噪声响应,从而有效增强目标特征判别的准确性.此外,设计了残差特征细化模块,以弥合浅层与深层特征差异,加速模型收敛并减少小断层信息的丢失.采用合成数据和实际数据对 MSC-UNet模型进行了测试,并将其与常用的 UNet、VNet网络结构及蚂蚁体算法进行了对比.结果表明,基于MSC-UNet模型的断层识别方法在准确率、断层连续性及抗噪性能方面均优于其他方法,展现出良好的应用前景.
In petroleum exploration,fault identification serves as a critical component of seismic interpretation,with its accuracy directly determining exploration results.Manual interpretation,constrained by mass data processing and complex geological structures,is plagued by low efficiency,inadequate precision,and strong subjectivity,and thus fails to meet the dual requirements for high efficiency and high accuracy in modern petroleum exploration.Deep learning has propelled intelligent fault identification,but it still faces three major bottlenecks:loss of small-scale fault information,difficulty in multi-scale fault extraction,and noise interference.To address these challenges,this paper proposes a fault identification neural network based on a multiscale hybrid attention mechanism,namely multiscale spatial channel UNet(MSC-UNet).A multiscale feature fusion module is introduced into the encoder,so that fine-grained edge details and coarse-grained structural semantics of faults can be simultaneously extracted,significantly enhancing cross-scale feature representation capability.Then,to mitigate noise interference,a parallel spatial-channel attention mechanism is incorporated:the spatial branch focuses on spatial fault distribution,and the channel branch suppresses noise responses,effectively enhancing discriminative feature extraction.Furthermore,a residual feature refinement module is designed to bridge the gap between shallow and deep features,accelerating model convergence and reducing small fault information loss.Finally,the MSC-UNet model is tested on both theoretical and field datasets,and evaluated against the commonly used UNet and VNet architectures as well as the ant-tracking algorithm.Experimental results demonstrate that the proposed MSC-UNet-based fault identification method outperforms other approaches in accuracy,fault continuity,and noise immunity,and it is promising for future application.
郑丛全;门哲;吴昊;薛雅娟;文武
成都信息工程大学计算机学院,四川 成都 610225中国石油集团东方地球物理公司,河北涿州 072751成都理工大学地球物理学院,四川 成都 610059成都信息工程大学通信工程学院,四川 成都 610225成都信息工程大学计算机学院,四川 成都 610225
能源科技
断层识别MSC-UNet多尺度融合并行注意力机制
fault identificationMSC-UNetmultiscale fusionparallel attention mechanism
《石油物探》 2026 (3)
521-532,12
国家自然科学青年基金项目(42304147)和国家自然科学基金面上项目(42474145)共同资助. This research is financially supported by the National Natural Science Foundation of China(Grant Nos.42304147,42474145).
评论