The possibilities of compressed sensing based migration

Ali Aldawood; Ibrahim Hoteit; Tariq Ali Alkhalifah

doi:10.1190/segam2013-0828.1

The possibilities of compressed sensing based migration

Ali Aldawood, Ibrahim Hoteit, Tariq Ali Alkhalifah

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Linearized waveform inversion or Least-square migration helps reduce migration artifacts caused by limited acquisition aperture, coarse sampling of sources and receivers, and low subsurface illumination. However, leastsquare migration, based on L2-norm minimization of the misfit function, tends to produce a smeared (smoothed) depiction of the true subsurface reflectivity. Assuming that the subsurface reflectivity distribution is a sparse signal, we use a compressed-sensing (Basis Pursuit) algorithm to retrieve this sparse distribution from a small number of linear measurements. We applied a compressed-sensing algorithm to image a synthetic fault model using dense and sparse acquisition geometries. Tests on synthetic data demonstrate the ability of compressed-sensing to produce highly resolved migrated images. We, also, studied the robustness of the Basis Pursuit algorithm in the presence of Gaussian random noise.

Original language	English (US)
Title of host publication	SEG Technical Program Expanded Abstracts 2013
Publisher	Society of Exploration Geophysicists
Pages	3900-3904
Number of pages	5
ISBN (Print)	9781629931883
DOIs	https://doi.org/10.1190/segam2013-0828.1
State	Published - Aug 19 2013

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10.1190/segam2013-0828.1

https://repository.kaust.edu.sa/bitstream/10754/593694/1/segam2013-08282E1.pdf

Cite this

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title = "The possibilities of compressed sensing based migration",

abstract = "Linearized waveform inversion or Least-square migration helps reduce migration artifacts caused by limited acquisition aperture, coarse sampling of sources and receivers, and low subsurface illumination. However, leastsquare migration, based on L2-norm minimization of the misfit function, tends to produce a smeared (smoothed) depiction of the true subsurface reflectivity. Assuming that the subsurface reflectivity distribution is a sparse signal, we use a compressed-sensing (Basis Pursuit) algorithm to retrieve this sparse distribution from a small number of linear measurements. We applied a compressed-sensing algorithm to image a synthetic fault model using dense and sparse acquisition geometries. Tests on synthetic data demonstrate the ability of compressed-sensing to produce highly resolved migrated images. We, also, studied the robustness of the Basis Pursuit algorithm in the presence of Gaussian random noise.",

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doi = "10.1190/segam2013-0828.1",

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AU - Hoteit, Ibrahim

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PY - 2013/8/19

Y1 - 2013/8/19

N2 - Linearized waveform inversion or Least-square migration helps reduce migration artifacts caused by limited acquisition aperture, coarse sampling of sources and receivers, and low subsurface illumination. However, leastsquare migration, based on L2-norm minimization of the misfit function, tends to produce a smeared (smoothed) depiction of the true subsurface reflectivity. Assuming that the subsurface reflectivity distribution is a sparse signal, we use a compressed-sensing (Basis Pursuit) algorithm to retrieve this sparse distribution from a small number of linear measurements. We applied a compressed-sensing algorithm to image a synthetic fault model using dense and sparse acquisition geometries. Tests on synthetic data demonstrate the ability of compressed-sensing to produce highly resolved migrated images. We, also, studied the robustness of the Basis Pursuit algorithm in the presence of Gaussian random noise.

AB - Linearized waveform inversion or Least-square migration helps reduce migration artifacts caused by limited acquisition aperture, coarse sampling of sources and receivers, and low subsurface illumination. However, leastsquare migration, based on L2-norm minimization of the misfit function, tends to produce a smeared (smoothed) depiction of the true subsurface reflectivity. Assuming that the subsurface reflectivity distribution is a sparse signal, we use a compressed-sensing (Basis Pursuit) algorithm to retrieve this sparse distribution from a small number of linear measurements. We applied a compressed-sensing algorithm to image a synthetic fault model using dense and sparse acquisition geometries. Tests on synthetic data demonstrate the ability of compressed-sensing to produce highly resolved migrated images. We, also, studied the robustness of the Basis Pursuit algorithm in the presence of Gaussian random noise.

UR - http://hdl.handle.net/10754/593694

UR - http://library.seg.org/doi/abs/10.1190/segam2013-0828.1

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DO - 10.1190/segam2013-0828.1

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BT - SEG Technical Program Expanded Abstracts 2013

PB - Society of Exploration Geophysicists

ER -

The possibilities of compressed sensing based migration

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