Presentation is loading. Please wait.

Presentation is loading. Please wait.

Surface Wave Prediction and Subtraction by Interferometry + Deconvolution Yanwei Xue Feb. 7, 2008.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Surface Wave Prediction and Subtraction by Interferometry + Deconvolution Yanwei Xue Feb. 7, 2008."— Presentation transcript:

1 Surface Wave Prediction and Subtraction by Interferometry + Deconvolution Yanwei Xue Feb. 7, 2008

2 Outline  Motivation  2D Interferometry + Deconvolution Theory and Field Data Test  3D Proposed Algorithm and Field Data Test  Conclusions & the Road Ahead

3 Motivation  Problem: Find a better way to predict and remove surface waves by interferometry  Solution: Inteferometry + Deconvolution  Background: Interferometric Prediction (Dong, 2005) Interferometric Prediction (Dong, 2005) Interferometry + NLF prediction (Xue, 2006) Interferometry + NLF prediction (Xue, 2006)

4 Outline  Motivation  2D Interferometry + Deconvolution Theory and Field Data Test  3D Proposed Algorithm and Field Data Test  Conclusions & the Road Ahead

5 U(s|g,ω)= W(s, ω )G(s|g) gg’ u(g,g’) 2D Interferometric Surface Wave Prediction u (s,g) u (s,g’) g’Sg U(s|g’,ω)= W(s, ω )G(s|g’) C(g |g’,ω)=|W(s,ω)| G(g|g’) Using crosscorrelation D(g |g’)= G(g|g’) Using deconvolution U(g|g’,ω)= D(g|g’) W(s,ω) U(s|g’,ω)= W(s, ω )G(s|g’)

6 Basic workflow Window the surface waves out Input data d Interferometry + Deconvolution prediction G Source wavelet Predicted d ^ Least squares subtraction d= min || d – d || ^ 2 ^ ^ Surface waves removed completely? Output data d ^ yes d = d ^ ^ no

7 0 2.0 03600X (m) Time (s) Original DataInterferometric prediction of 1 st Iteration 2D Field Data Test Raw Data vs 1 st Prediction 0 2.0 03600X (m) Time (s)

8 Result after 1 st IterationOriginal Data Raw Data vs 1 st Removal 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

9 Result after 3 rd Iteration Result after 1 st Iteration 3 rd Removal vs 1 st Removal 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

10 Result after 3 rd Iteration Original Data Raw Data vs 3 rd Removal 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

11 Surface Waves RemovedOriginal Data Raw Data vs Removed SW 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

12 Result of Interferometry + NLF Result of Interferometry + Deconvolution Interferometry + Deconvolution vs Interferometry + NLF 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

13 Surface Waves Removed by Interferometry + NLF Surface Waves Removed by Interferometry + Deconvolution SW by Interferometry + Deconvolution vs by Interferometry + NLF 0 2.0 03600X (m) Time (s) 0 2.0 03600X (m) Time (s)

14 Outline  Motivation  2D Interferometry + Deconvolution Theory and Field Data Test  3D Proposed Algorithm and Field Data Test  Conclusions & the Road Ahead

15 S2S2 S1S1 S3S3 Challenge for 3D Extension l1l1 l2l2 l3l3 l1l1 l2l2 2D: l 2 - l 1 = l 3 3D: l 2 - l 1 < l 3

16 Proposed 3D Interferometry

17 S1S1 S2S2 S3S3 Physical Meaning z z

18 3D Test with CREWES Field Data 0 4000 0 X (m) Y (m) Acquisition Geometry Inline: 60 m Crossline: 260 m Source Interval Total 708 Shots Inline: 60 m Crossline: 260 m Receiver Interval 42 receivers per line

19 Interferometric Test of Line 4 0 2.0 02500X (m) Time (s) 0 2.0 02500X (m) Time (s) Original predicted

20 0 2.0 02500X (m) Time (s) 0 2.0 02500X (m) Time (s) Interferometric Test of Line 2 predicted Original

21 0 2.0 02500X (m) Time (s) 0 2.0 02500X (m) Time (s) Interferometric Test of Line 1 Original predicted

22 Outline  Motivation  2D Interferometry + Deconvolution Theory and Field Data Test  3D Proposed Algorithm and Field Data Test  Conclusions & the Road Ahead

23 Summary  I developed and tested a 2D nterferometry + Deconvolution prediction scheme for surface wave removal  I proposed and tested a 3D extension of this workflow, but did not get the expected result.  Results of Interferometry + Deconvolution were compared with the results of Interferometry + NLF

24 The Road Ahead  Improve the ability of Interferometry + Deconvolution to separate noise from signal  Use a denser data set to improve our 3D test

25 Thanks!

Download ppt "Surface Wave Prediction and Subtraction by Interferometry + Deconvolution Yanwei Xue Feb. 7, 2008."

Similar presentations

(t,x) domain, pattern-based ground roll removal Morgan P. Brown* and Robert G. Clapp Stanford Exploration Project Stanford University.

(t,x) domain, pattern-based ground roll removal Morgan P. Brown* and Robert G. Clapp Stanford Exploration Project Stanford University.
3D Super-virtual Refraction Interferometry Kai Lu King Abdullah University of Science and Technology.

3D Super-virtual Refraction Interferometry Kai Lu King Abdullah University of Science and Technology.
Reverse Time Migration of Multiples for OBS Data Dongliang Zhang KAUST.

Reverse Time Migration of Multiples for OBS Data Dongliang Zhang KAUST.
Locating Trapped Miners Using Time Reversal Mirrors Sherif M. Hanafy Weiping CaoKim McCarter Gerard T. Schuster November 12, 2008.

Locating Trapped Miners Using Time Reversal Mirrors Sherif M. Hanafy Weiping CaoKim McCarter Gerard T. Schuster November 12, 2008.
Local Reverse Time Migration with Extrapolated VSP Green’s Function Xiang Xiao UTAM, Univ. of Utah Feb. 7, 2008.

Local Reverse Time Migration with Extrapolated VSP Green’s Function Xiang Xiao UTAM, Univ. of Utah Feb. 7, 2008.
Interferometric Interpolation of 3D OBS Data Weiping Cao, University of Utah Oct. 29 2009.

Interferometric Interpolation of 3D OBS Data Weiping Cao, University of Utah Oct
SURFACE WAVE ELIMINATION BY INTERFEROMETRY AND ADAPTIVE SUBTRACTION YANWEI XUE University of Utah.

SURFACE WAVE ELIMINATION BY INTERFEROMETRY AND ADAPTIVE SUBTRACTION YANWEI XUE University of Utah.
Solving Illumination Problems Solving Illumination Problems in Imaging:Efficient RTM & in Imaging:Efficient RTM & Migration Deconvolution Migration Deconvolution.

Solving Illumination Problems Solving Illumination Problems in Imaging:Efficient RTM & in Imaging:Efficient RTM & Migration Deconvolution Migration Deconvolution.
Speech Enhancement Based on a Combination of Spectral Subtraction and MMSE Log-STSA Estimator in Wavelet Domain LATSI laboratory, Department of Electronic,

Speech Enhancement Based on a Combination of Spectral Subtraction and MMSE Log-STSA Estimator in Wavelet Domain LATSI laboratory, Department of Electronic,
Interferometric Prediction and Least Squares Subtraction of Surface Waves Shuqian Dong and Ruiqing He University of Utah.

Interferometric Prediction and Least Squares Subtraction of Surface Waves Shuqian Dong and Ruiqing He University of Utah.
Measuring, imaging and suppressing scattered surface waves Xander Campman*, Kasper van Wijk, John Scales and Gérard Herman** * Dept. of Applied Mathematics.

Measuring, imaging and suppressing scattered surface waves Xander Campman*, Kasper van Wijk, John Scales and Gérard Herman** * Dept. of Applied Mathematics.
Improve Migration Image Quality by 3-D Migration Deconvolution Jianhua Yu, Gerard T. Schuster University of Utah.

Improve Migration Image Quality by 3-D Migration Deconvolution Jianhua Yu, Gerard T. Schuster University of Utah.
Overview of Utah Tomography and Modeling/Migration (UTAM) Chaiwoot B., T. Crosby, G. Jiang, R. He, G. Schuster, Chaiwoot B., T. Crosby, G. Jiang, R. He,

Overview of Utah Tomography and Modeling/Migration (UTAM) Chaiwoot B., T. Crosby, G. Jiang, R. He, G. Schuster, Chaiwoot B., T. Crosby, G. Jiang, R. He,
Migration and Attenuation of Surface-Related and Interbed Multiple Reflections Zhiyong Jiang University of Utah April 21, 2006.

Migration and Attenuation of Surface-Related and Interbed Multiple Reflections Zhiyong Jiang University of Utah April 21, 2006.
1 Interferometric Interpolation and Extrapolation of Sparse OBS and SSP Data Shuqian Dong and G.T.Schuster.

1 Interferometric Interpolation and Extrapolation of Sparse OBS and SSP Data Shuqian Dong and G.T.Schuster.
Kirchhoff vs Crosscorrelation

Kirchhoff vs Crosscorrelation
Interferometric Extraction of SSP from Passive Seismic Data Yanwei Xue Feb. 7, 2008.

Interferometric Extraction of SSP from Passive Seismic Data Yanwei Xue Feb. 7, 2008.
Wavelet Extraction using Seismic Interferometry C. Boonyasiriwat and S. Dong November 15, 2007.

Wavelet Extraction using Seismic Interferometry C. Boonyasiriwat and S. Dong November 15, 2007.
1 LEAST SQUARES DATUMING Yanwei Xue Sep. 18, 2009.

1 LEAST SQUARES DATUMING Yanwei Xue Sep. 18, 2009.
1 Fast 3D Target-Oriented Reverse Time Datuming Shuqian Dong University of Utah 2 Oct. 2008.

1 Fast 3D Target-Oriented Reverse Time Datuming Shuqian Dong University of Utah 2 Oct

Similar presentations

Ads by Google