ScholarWorks@동국대학교

초록

This study presents an advanced geospatial framework for Seoul, utilizing a database of over 29,000 boreholes to develop a high-resolution pseudo-3D shear-wave velocity field. By implementing site-specific SPT- N correlations, the framework captures intra-stratal heterogeneity and vertical stiffness gradients often masked by stratigraphic averaging. A density-adaptive mosaic-based interpolation was employed to estimate bedrock depth ( H ), time-averaged shear wave velocity ( V S30 ) and fundamental period ( T G ), effectively mitigating the “smoothing effect” inherent in ordinary kriging. The model achieved an average 36.56% reduction in cross-validation RMSE across all primary parameters and a 50% reduction in V S30 RMSE against 9999 independent downhole records. T G was identified as the critical factor for localized resonance risk. The resulting 5 m resolution zonation maps delineate seismic hotspots and alluvial micro-zones previously obscured in macro-scale assessments, providing a robust geospatial template for lot-level hazard mitigation and seismic design code refinement within the digital construction paradigm. Copyright © 2026. Published by Elsevier Ltd.

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