Curvelet-based non-linear adaptive subtraction with sparseness constraints

Herrmann, Felix J., Moghaddam, Peyman P.

January 2004

In this paper an overview is given on the application of directional basis functions, known under the name Curvelets/Contourlets, to various aspects of seismic processing and imaging, which involve adaptive subtraction. Key concepts in the approach are the use of (i) directional basis functions that localize in both domains (e.g. space and angle); (ii) non-linear estimation, which corresponds to localized muting on the coefficients, possibly supplemented by constrained optimization. We will discuss applications that include multiple, ground-roll removal and migration denoising.

curvelets

contourlets

non-linear adaptive subtraction

sparseness constraints

Curvelet imaging and processing : an overview

Herrmann, Felix J.

January 2004

In this paper an overview is given on the application of directional basis functions, known under the name Curvelets/Contourlets, to various aspects of seismic processing and imaging. Key concepts in the approach are the use of (i) that localize in both domains (e.g. space and angle); (ii) non-linear estimation, which corresponds to localized muting on the coefficients, possibly supplemented by constrained optimization (iii) invariance of the basis functions under the imaging operators. We will discuss applications that include multiple and ground roll removal; sparseness-constrained least-squares migration and the computation of 4-D difference cubes.

curvelets

contourlets

non-linear estimation

seismic processing

seismic imaging

ground roll

directional basis functions

4d difference cubes