A. Eckersley scite author profile

Spectral decomposition is a widely used technique in analysis and interpretation of seismic data. According to the uncertainty principle, there exists a lower bound for the joint time–frequency resolution of seismic signals. The highest temporal resolution is achieved by a matching pursuit approach which uses waveforms from a dictionary of functions (atoms). This method, in its pure mathematical form can result in atoms whose shape and phase have no relation to the seismic trace. The high‐definition frequency decomposition algorithm presented in this paper interleaves iterations of atom matching and optimization. It divides the seismic trace into independent sections delineated by envelope troughs, and simultaneously matches atoms to all peaks. Co‐optimization of overlapping atoms ensures that the effects of interference between them are minimized. Finally, a second atom matching and optimization phase is performed in order to minimize the difference between the original and the reconstructed trace. The fully reconstructed traces can be used as inputs for a frequency‐based reconstruction and red–green–blue colour blending. Comparison with the results of the original matching pursuit frequency decomposition illustrates that high‐definition frequency decomposition based colour blends provide a very high temporal resolution, even in the low‐energy parts of the seismic data, enabling a precise analysis of geometrical variations of geological features.

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Frequency Decomposition of Broadband Seismic Data: Challenges and Solutions

Szafián¹,

Lowell²,

Eckersley³

et al. 2015

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Improvements to Frequency Decomposition Methodologies for Use with Broad Bandwidth Seismic Datasets

Lowell¹,

Eckersley²,

Kristensen³

et al. 2014

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A. Eckersley

Quantifying the Temporal and Spatial Extent of Depositional and Structural Elements in 3D Seismic Data Using Spectral Decomposition and Multi Attribute RGB Blending

High‐definition frequency decomposition

Frequency Decomposition of Broadband Seismic Data: Challenges and Solutions

Improvements to Frequency Decomposition Methodologies for Use with Broad Bandwidth Seismic Datasets

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