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Discerning small time-lapse traveltime changes by isolating the seismic response of a reservoir using the Marchenko method

van IJsseldijk, J.E. (author), Wapenaar, C.P.A. (author)

4D seismic studies aim to observe time-lapse changes in the subsurface between a baseline and a monitor study. These changes are generally small, and the seismic response from a deep reservoir can be concealed by reflections from shallow structures. Here, we introduce a novel way of isolating the reservoir response by means of the Marchenko...

book chapter 2021

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Marchenko without up/down decomposition on the Marmousi model and retrieval of the refracted waves: Are they caused by the Marchenko algorithm?

Kiraz, Mert S. R. (author), Snieder, Roel (author), Wapenaar, C.P.A. (author)

Marchenko algorithms retrieve the Green’s function for arbitrary subsurface locations, and the retrieved Green’s function includes the primary and multiple reflected waves. The Marchenko algorithms require the estimate of the direct arrivals and the reflected waves; however, most previous Marchenko algorithms also require the up/down components...

book chapter 2021

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Do we need up/down decomposition for Marchenko imaging?

Wapenaar, C.P.A. (author), Snieder, Roel (author), Ridder, Sjoerd de (author), Slob, E.C. (author)

Marchenko redatuming, imaging, monitoring and multiple elimination methods are based on Green’s function representations, with the underlying assumption that the wave field in the subsurface can be decomposed into downgoing and upgoing waves and that evanescent waves can be neglected. In this paper we show that up/down decomposition in the...

book chapter 2021

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Quantitative imaging of fractures around a borehole using linear slip theory and elastic least-squares migration

Minato, S. (author), Ghose, R. (author), Wapenaar, C.P.A. (author)

Single-well reflection imaging using sonic logging data successfully locates fine-scale structures around a borehole including fractures. In order to achieve accurate and quantitative estimation of fracture properties with high resolution, we propose to couple least-squares migration with linear slip theory. The proposed least-squares...

conference paper 2019

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Representations for the Marchenko Method for imperfectly sampled data

Wapenaar, C.P.A. (author), van IJsseldijk, J.E. (author)

The Marchenko method is based on two integral representations for focusing functions and Green’s functions. In practice the integrals are replaced by finite summations. This works well for regularly sampled data, but the quality of the results degrades in case of imperfect sampling. We reformulate the integral representations into summation...

conference paper 2019

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A field data example of Marchenko multiple elimination

Zhang, L. (author), Slob, E.C. (author)

Multiple reflections are often considered as noise in seismic data. Dealing with them has attracted much attention from industry and academia. A variety of schemes have been developed for removal of free-surface multiple reflections and success has been achieved in numerical and field datasets. However, less attention has been directed toward...

conference paper 2019

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Optimum seismic acquisition geometry design with the help of artificial intelligence

Blacquière, G. (author), Nakayama, S. (author)

Acquisition geometry design aims at finding the most affordable acquisition geometry that satisfies the objectives of the seismic survey. The parameters of an acquisition geometry can be specified in terms of the number of sources and detectors, their location, the blending parameters and the DSA (dispersed source array) parameters. In our...

conference paper 2019

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Fast nonrecursive 1D inversion by filtering acoustic-reflection data

Slob, E.C. (author), Wapenaar, C.P.A. (author), Treitel, Sven (author)

We derive a fast acoustic inversion method for a piecewise homogeneous horizontally layered medium. The method obtains medium parameters from the reflection response. The method can be implemented to obtain the parameters on either side of a reflector at an arbitrary depth. Three processing steps lead to the inversion result. First, we solve a...

conference paper 2018

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Multiple elimination and transmission compensation in primary reflections in data domain

Zhang, L. (author), Slob, E.C. (author)

We retrieve transmission compensated subsurface primary reflections from the reflection response measured at the surface. This is achieved by filtering the reflection response. The application of this scheme does not require model information. In this process, the reflection response is convolved and correlated with itself. The result after each...

conference paper 2018

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Obtaining local reflectivity at two-way travel time by filtering acoustic reflection data

Slob, E.C. (author), Zhang, L. (author), Wapenaar, C.P.A. (author)

A modified implementation of Marchenko redatuming leads to a filter that removes internal multiples from reflection data. It produces local reflectivity at two-way travel time. The method creates new primary reflections resulting from emitted events that eliminate internal multiples. We call these non-physical<br/>primaries and their presence is...

conference paper 2017

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Adaptive double-focusing method for source-receiver Marchenko redatuming on field data

Staring, M. (author), Pereira, R (author), Douma, H (author), van der Neut, J.R. (author), Wapenaar, C.P.A. (author)

We present an adaptive double-focusing method for applying source-receiver Marchenko redatuming to field data. Receiver redatuming is achieved by a first focusing step, where the coupled Marchenko equations are iteratively solved for the oneway Green’s functions. Next, source redatuming is typically performed by a multi-dimensional deconvolution...

conference paper 2017

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Deconvolution and correlation-based interferometric redatuming by wavefield inversion

Barrera Pacheco, D.F. (author), Schleicher, J. (author), van der Neut, J.R. (author), Wapenaar, C.P.A. (author)

Seismic interferometry is a method to retrieve Green’s functions for sources (or receivers) where there are only receivers (or sources, respectively). This can be done by correlationor deconvolution-based methods. In this work we present a<br/>new approach to reposition the seismic array from the earth’s surface to an arbitrary datum at depth...

conference paper 2017

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Decomposition of the Green's function using the Marchenko equation

Brackenhoff, J.A. (author), van der Neut, J.R. (author), Wapenaar, C.P.A. (author)

The Marchenko equation can be used to retrieve the Green’s function at depth as a full function or decomposed into its upand downgoing parts. We show that the equation can be rewritten to create a decomposition scheme that can decompose a full wavefield, that was recorded at depth, into its up- and downgoing parts. We show that this can be done...

conference paper 2017

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Time-lapse data prediction by Marchenko-based reservoir transplantation

Wapenaar, C.P.A. (author), Slob, E.C. (author)

In a time-lapse experiment, changes in a reservoir cause changes in the reflection response. We discuss a method which predicts these changes from the baseline survey and a model of the changed reservoir. This method, which takes all multiple<br/>scattering into account, is significantly more efficient than modeling the response of the entire...

conference paper 2017

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Parametric level-set full-waveform inversion in the presence of salt bodies

Kadu, Ajinkya (author), Mulder, W.A. (author), van Leeuwen, Tristan (author)

Full-waveform inversion attempts to estimate a high-resolution model of the Earth by inverting all the seismic data. This procedure fails if the Earth model contains high-contrast bodies such as salt and if su ciently low frequencies are absent from the data. Salt bodies are important for hydrocarbon exploration because oil or gas reservoirs are...

conference paper 2017

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Laboratory estimation of fracture compliance of a fluid-filled fracture using AVO response of a nonwelded interface

Minato, S. (author), Ghose, R. (author)

We explore the potential of multi-angle AVO inversion of P-P and P-S reflections from a fracture to estimate fracture proper- ties. Although AVO analysis of welded interface like geologi- cal layer boundaries is common, the use of AVO variations for nonwelded boundaries like fractures is yet to be investigated. We conduct laboratory experiments...

conference paper 2016

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A parametric level-set approach for seismic full-waveform inversion

Kadu, Ajinkya (author), van Leeuwen, Tristan (author), Mulder, W.A. (author)

<br/>In seismic exploration, the delineation of large bodies with hard exterior contrasts but nearly constant interior properties is a challenge. Examples include salt diapirs, salt slabs, anhydrite or basalt layers. Salt geometries are of particular interest because they often have hydrocarbon reservoirs on their sides or underneath. This...

conference paper 2016

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From closed-boundary to single-sided homogeneous Green's function representations

Wapenaar, C.P.A. (author), van der Neut, J.R. (author), Thorbecke, J.W. (author), Slob, E.C. (author), Singh, Satyan (author)

The homogeneous Green’s function (i.e., the Green’s function and its time-reversed counterpart) plays an important role in optical, acoustic and seismic holography, in inverse scattering methods, in the field of time-reversal acoustics, in reversetime migration and in seismic interferometry. Starting with the classical closed-boundary...

conference paper 2016

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Beyond Marchenko: Obtaining virtual receivers and virtual sources in the subsurface

Singh, S. (author), Wapenaar, C.P.A. (author), van der Neut, J.R. (author), Snieder, R (author)

By solving the Marchenko equations, the Green’s function can be retrieved between a virtual receiver in the subsurface to points at the surface (no physical receiver is required at the virtual location). We extend the idea of these equations to retrieve the Green’s function between any two points in the subsurface; i.e, between a virtual source...

conference paper 2016

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Time-slice wavefield decomposition

Holicki, M.E. (author), Wapenaar, C.P.A. (author), Drijkoningen, G.G. (author)

We propose a novel acoustic decomposition operator for time slices, loosely based on conventional surface decomposition operators. The proposed operators hold for constant velocity models and require two 2D Fourier Transforms (one forward, one backward) per decomposed time slice per decomposition direction. We then demonstrate the capabilities...

conference paper 2016