3D Curvature Analysis of Seismic Waveforms and its Interpretational Implications
Haibin Di, Motaz Alfarraj, and Ghassan AlRegib

TL;DR
This paper introduces a novel waveform curvature analysis method for 3D seismic data, enhancing interpretation by differentiating reflector types, estimating dips, analyzing signals along reflection normals, and improving resolution of subtle features.
Contribution
The study extends geometric curvature to waveform analysis, providing new tools for seismic interpretation that incorporate dynamic waveform information and improve feature detection.
Findings
Automatic decomposition of seismic images by reflector types
New approach for estimating reflector dips
Enhanced resolution of subtle seismic features
Abstract
The idea of curvature analysis has been widely used in subsurface structure interpretation from three-dimensional (3D) seismic data (e.g., fault/fracture detection and geomorphology delineation) by measuring the lateral changes in the geometry of seismic events. However, such geometric curvature utilizes only the kinematic information (two-way traveltime) of the available seismic signals. While analyzing the dynamic information (waveform), the traditional approaches (e.g., complex trace analysis) are often trace-wise and thereby fail to take into account the seismic reflector continuity and deviate from the true direction of geologic deposition, especially for steeply dipping formations. This study proposes extending the 3D curvature analysis to the waveforms in a seismic profile, here denoted as the waveform curvature, and investigates the associated implications for assisting seismic…
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