Patrick Elison scite author profile

Patrick Elison

5Publications

65Citation Statements Received

0Citation Statements Given

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ETH Zurich

Publications

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Data-driven control over short-period internal multiples in media with a horizontally layered overburden

Elison

Dukalski²,

Vos

et al. 2020

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SUMMARY Short-period internal multiples, resulting from closely spaced interfaces, may interfere with their generating (bandlimited) primaries, and hence they pose a long-standing challenge in their prediction and removal. A recently proposed method based on the Marchenko equation enables removal of the entire overburden-related scattering by means of calculating an inverse transmission response. However, the method relies on time windowing and can thus be inexact in the presence of short-period internal scattering. In this work, we present a detailed analysis of the impact of band-limitation on the Marchenko method. We show the influence of an incorrect first guess, and that adding multidimensional energy conservation and a minimum phase principle may be used to correctly account for both long- and short-period internal multiple scattering. The proposed method can currently only be solved for media with a laterally invariant overburden, since a multidimensional minimum phase condition is not well understood for truly 2-D and 3-D media. We demonstrate the virtue of the proposed scheme with a complex acoustic numerical model that is based on sonic log measurements in the Middle East. The results suggest not only that the conventional scheme can be robust in this setting, but that the ‘augmented’ Marchenko method is superior, as the latter produces a structural image identical to one where the finely layered overburden is missing. This is the first demonstration of a data-driven method to account for short-period internal multiples beyond 1-D.

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Quality control of under-constrained Marchenko equation solvers in complex media using reference focusing functions

Elison¹,

Dukalski²,

Manen³

2021

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True Amplitude-Versus-Offset Green's Function Retrieval Using Augmented Marchenko Focusing

Mildner¹,

Dukalski²,

Elison³

et al. 2019

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Marchenko-based immersive wave simulation

Elison

Manen

Robertsson

et al. 2018

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Experimental Marchenko focusing in a variable diameter sound wave tube

Becker

Elison

Manen

et al. 2016

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Patrick Elison

Data-driven control over short-period internal multiples in media with a horizontally layered overburden

Quality control of under-constrained Marchenko equation solvers in complex media using reference focusing functions

True Amplitude-Versus-Offset Green's Function Retrieval Using Augmented Marchenko Focusing

Marchenko-based immersive wave simulation

Experimental Marchenko focusing in a variable diameter sound wave tube

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