Farbod Khosro Anjom, Frank Adler, Laura Valentina Socco
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In this study, we applied three surface-wave techniques (i.e., wavelength–depth (W/D) method, laterally constrained inversion (LCI), and surface-wave tomography (SWT)) to a large-scale 3D dataset obtained from a hard-rock site using the irregular source–receiver acquisition method. The methods were fine-tuned for the data obtained from hard-rock sites, which typically exhibit a low signal-to-noise ratio. The wavelength–depth method is a data transformation method that is based on a relationship between skin depth and surface-wave wavelength and provides both S- and P-wave velocity (Vs and Vp) models. We used Poisson's ratios estimated through the wavelength–depth method to constrain the laterally constrained inversion and surface-wave tomography and to retrieve both Vs and Vp also from these methods. The pseudo-3D Vs and Vp models were obtained down to 140 m depth over an area of approximately 900 × 1500 m2. 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引用次数: 0
摘要
摘要在偏远地区采集地震勘探数据存在若干后勤和经济方面的关键问题。震源和/或接收器的不规则分布有利于这些地区的地震采集作业。一种方便的方法是在规则的网格上部署节点接收器,只在可到达的地点使用震源,形成不规则的震源-接收器布局。在处理这类数据集时,必须评估、调整和验证处理工作流程,特别是利用面波分析进行近地表速度模型估算的工作流程。在这项研究中,我们将三种面波技术(即波长-深度(W/D)法、横向约束反演(LCI)和面波层析成像(SWT))应用于采用不规则源-接收器采集方法从硬岩场地获得的大规模三维数据集。这些方法针对从硬岩地点获得的数据进行了微调,硬岩地点通常信噪比较低。波深法是一种数据转换方法,它基于表皮深度和表面波波长之间的关系,并提供 S 波和 P 波速度(Vs 和 Vp)模型。我们使用波长深度法估算的泊松比来约束横向约束反演和面波层析成像,并从这些方法中获取 Vs 和 Vp。在大约 900 × 1500 平方米的区域内,获得了深度达 140 米的伪三维 Vs 和 Vp 模型。这些方法估算出的模型与该地点现有的地质信息相吻合。三种方法估算的 Vs 模型之间的差异小于 6%,而检索的 Vp 模型之间的差异为 7.1%。这些方法在分辨率和效率方面进行了严格的比较,为了解面波分析在估算硬岩地点近地表模型方面的潜力提供了宝贵的见解。
Comparison of surface-wave techniques to estimate S- and P-wave velocity models from active seismic data
Abstract. The acquisition of seismic exploration data in remote locations presents several logistical and economic criticalities. The irregular distribution of sources and/or receivers facilitates seismic acquisition operations in these areas. A convenient approach is to deploy nodal receivers on a regular grid and to use sources only in accessible locations, creating an irregular source–receiver layout. It is essential to evaluate, adapt, and verify processing workflows, specifically for near-surface velocity model estimation using surface-wave analysis, when working with these types of datasets. In this study, we applied three surface-wave techniques (i.e., wavelength–depth (W/D) method, laterally constrained inversion (LCI), and surface-wave tomography (SWT)) to a large-scale 3D dataset obtained from a hard-rock site using the irregular source–receiver acquisition method. The methods were fine-tuned for the data obtained from hard-rock sites, which typically exhibit a low signal-to-noise ratio. The wavelength–depth method is a data transformation method that is based on a relationship between skin depth and surface-wave wavelength and provides both S- and P-wave velocity (Vs and Vp) models. We used Poisson's ratios estimated through the wavelength–depth method to constrain the laterally constrained inversion and surface-wave tomography and to retrieve both Vs and Vp also from these methods. The pseudo-3D Vs and Vp models were obtained down to 140 m depth over an area of approximately 900 × 1500 m2. The estimated models from the methods matched the geological information available for the site. A difference of less than 6 % was observed between the estimated Vs models from the three methods, whereas this value was 7.1 % for the retrieved Vp models. The methods were critically compared in terms of resolution and efficiency, which provides valuable insights into the potential of surface-wave analysis for estimating near-surface models at hard-rock sites.
期刊介绍:
Solid Earth (SE) is a not-for-profit journal that publishes multidisciplinary research on the composition, structure, dynamics of the Earth from the surface to the deep interior at all spatial and temporal scales. The journal invites contributions encompassing observational, experimental, and theoretical investigations in the form of short communications, research articles, method articles, review articles, and discussion and commentaries on all aspects of the solid Earth (for details see manuscript types). Being interdisciplinary in scope, SE covers the following disciplines:
geochemistry, mineralogy, petrology, volcanology;
geodesy and gravity;
geodynamics: numerical and analogue modeling of geoprocesses;
geoelectrics and electromagnetics;
geomagnetism;
geomorphology, morphotectonics, and paleoseismology;
rock physics;
seismics and seismology;
critical zone science (Earth''s permeable near-surface layer);
stratigraphy, sedimentology, and palaeontology;
rock deformation, structural geology, and tectonics.
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