New interpretation methods for rockhead determination using passive seismic surface wave data: Insights from Singapore

New interpretation methods for rockhead determination using passive seismic surface wave data: Insights from Singapore

Accurate determination of rockhead is crucial for underground construction. Traditionally, borehole data are mainly used for this purpose. However, borehole drilling is costly, time-consuming, and sparsely distributed. Non-invasive geophysical methods, particularly those using passive seismic surfac...

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Bibliographic Details
Main Authors: Yu Zhang, Jian Chu, Shifan Wu, Kiefer Chiam
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Journal of Rock Mechanics and Geotechnical Engineering
Subjects:
Rockhead
Microtremor array measurement
Horizontal-to-vertical spectral ratio
Site investigation
Geophysics
Interpretation methods
Online Access:http://www.sciencedirect.com/science/article/pii/S1674775525000241
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Summary:Accurate determination of rockhead is crucial for underground construction. Traditionally, borehole data are mainly used for this purpose. However, borehole drilling is costly, time-consuming, and sparsely distributed. Non-invasive geophysical methods, particularly those using passive seismic surface waves, have emerged as viable alternatives for geological profiling and rockhead detection. This study proposes three interpretation methods for rockhead determination using passive seismic surface wave data from Microtremor Array Measurement (MAM) and Horizontal-to-Vertical Spectral Ratio (HVSR) tests. These are: (1) the Wavelength-Normalized phase velocity (WN) method in which a nonlinear relationship between rockhead depth and wavelength is established; (2) the Statistically Determined-shear wave velocity (SD-Vs) method in which the representative Vs value for rockhead is automatically determined using a statistical method; and (3) the empirical HVSR method in which the rockhead is determined by interpreting resonant frequencies using a reliably calibrated empirical equation. These methods were implemented to determine rockhead depths at 28 locations across two distinct geological formations in Singapore, and the results were evaluated using borehole data. The WN method can determine rockhead depths accurately and reliably with minimal absolute errors (average RMSE = 3.11 m), demonstrating robust performance across both geological formations. Its advantage lies in interpreting dispersion curves alone, without the need for the inversion process. The SD-Vs method is practical in engineering practice owing to its simplicity. The empirical HVSR method reasonably determines rockhead depths with moderate accuracy, benefiting from a reliably calibrated empirical equation.
ISSN:1674-7755

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