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基于空间结构与联合稀疏表征的反演低频模型构建方法OA

Constrained spatial structure reconstruction for low-frequency model building in seismic inversion

中文摘要英文摘要

地震反演中缺失的低频信息通常由测井数据补充.现有方法大多依赖空间插值方法构建低频模型,其核心在于依据地下结构空间连续性及相邻位置属性值相似的假设,对测井数据统一赋权并进行横向插值.然而,此类方法对地层横向变化的复杂性及测井曲线垂向差异性欠考量,在实际结构与假设不符或井数据可靠性不足时,易导致模型出现牛眼效应及层位串层现象,偏离真实地质情况.为解决上述问题,提出一种基于空间结构与联合稀疏表征的反演低频模型构建方法.该方法摒弃传统单一权重的插值方式,利用字典原子集合的二维加权替代插值,同时借助联合稀疏表征融入地震数据的横向连续性特征、空间结构信息以及测井曲线的垂向差异性特征,进一步构建类反演迭代框架,实现对低频模型的持续优化与更新.该方法在合成数据和某工区实际数据的应用结果表明,相较于常规插值方法,所构建的低频模型精度更高、可靠性更强.

The lack of low-frequency information in seismic inversion typically necessitates supplementation with well log data.Most existing methods rely on spatial interpolation techniques to build low-frequency models.Their core assumption is spatial continuity of subsurface structures and similarity of attribute values at adjacent locations,assigning uniform weights to well logs for lateral prediction.However,these methods inadequately account for the complexity of lateral stratigraphic variations and the vertical heterogeneity of well logs.When the actual structure deviates from these assumptions or when well data reliability is insufficient,they can often lead to artifacts such as the"bull's-eye effect"and horizon mixing in the model,significantly deviating from the true geological scenario.To overcome these limitations,this paper proposes a novel low-frequency model construction method for inversion,based on spatial structure and joint sparse representation.This method abandons the traditional single-weight interpolation scheme.Instead,it innovatively employs a 2D weighted substitution of dictionary atoms for interpolation.Simultaneously,it incorporates the lateral continuity characteristics of seismic data,spatial structure information,and the vertical heterogeneity characteristics of well logs by leveraging joint sparse representation.Furthermore,it establishes an inversion-like iterative framework to achieve continuous optimization and updating of the low-frequency model.Application results on both synthetic data and actual data from a specific work area demonstrate that,compared to conventional interpolation methods,the proposed method constructs a low-frequency model with higher accuracy and greater reliability.

张明星;王峣钧;冯清雨;罗杨;于子琳

电子科技大学资源与环境学院,四川 成都 611731电子科技大学资源与环境学院,四川 成都 611731电子科技大学资源与环境学院,四川 成都 611731电子科技大学资源与环境学院,四川 成都 611731电子科技大学资源与环境学院,四川 成都 611731

能源科技

反演低频模型横向连续性联合稀疏表征空间结构信息

inversion low-frequency modellateral continuityjoint sparse representationspatial structure information

《石油物探》 2026 (1)

40-54,15

国家自然科学基金项目(42174151)和四川省科技揭榜挂帅项目(2025YFNH0001)共同资助.This research is financially supported by the National Natural Science Foundation of China(Grant No.42174151)and Sichuan Provincial Department of Science and Technology(Grant No.2025YFNH0001).

10.12431/issn.1000-1441.2025.0007

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