Recent developments in primary-multiple separation

TitleRecent developments in primary-multiple separation
Publication TypeConference
Year of Publication2007
AuthorsFelix J. Herrmann
Conference NameSINBAD 2007
KeywordsPresentation, SINBAD, SLIM
Abstract

In this talk, we present a novel primary-multiple separation scheme which makes use of the sparsity of both primaries and multiples in a transform domain, such as the curvelet transform, to provide estimates of each. The proposed algorithm utilizes seismic data as well as the output of a preliminary step that provides (possibly) erroneous predictions of the multiples. The algorithm separates the signal components, i.e., the primaries and multiples, by solving an optimization problem that assumes noisy input data and can be derived from a Bayesian perspective. More precisely, the optimization problem can be arrived at via an assumption of a weighted Laplacian distribution for the primary and multiple coefficients in the transform domain and of white Gaussian noise contaminating both the seismic data and the preliminary prediction of the multiples, which both serve as input to the algorithm. Time permitted, we will also briefly discuss a propasal for adaptive curvelet-domain matched filtering. This is joint work with Deli Wang, Rayan Saaba, øzgur Yilmaz and Eric Verschuur.

Presentation
Citation Keyherrmann2007SINBADrdi2