seismic processing in tesseral
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www.tesseral-geo.com
Seismic Processingin Tesseral
Jan-12
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Seismic Imaging for post-stack interpretation
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“Create Velocity Spectra”(creation of velocity spectra for processing in time domain)“Create Migration Velocity Spectra”(creation of velocity spectra for processing in depth domain)Etc ….
“Pre-processing”
“Static Input”“Gathering” (seismic gather conversionsto different gather types)“Stack (Time domain)” (gathersummation in time domain)Etc …
“Migration (Time domain)” “Pre-Stack Kirchhoff Migration”“Weight Pre-Stack KirchhoffMigration”“Pre-Stack Kirchhoff Migration forPS-waves”(pre-stack Kirchhoff migration forconverted waves)“Post-Stack Kirchhoff Migration”Etc…
“Migration (Depth domain)”
Depth Pre-Stack KirchhoffMigration”(Eikonal based)“Vector Wave KirchhoffMigration”(vector wave equation based)“Cluster: Create Task for VectorWave Migration”(creating script for VWKMprocessing on cluster)
“VSP procedures (Time domain)”
“VSP procedures (Depth domain)”
“Time <-> Depth Transformation”
“Velocity”
Are oriented to processing of synthetic gathers produced by thepackage. Inside the package you can also process real seismic profilerecords in SEGY format.
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Visualization and post-processing procedures
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1. Basic: clipping, equalizing,smoothing etc.
2. Zero balancing3. Linear gain4. Normalization5. Automatic gain control6. Add “white noise”7. Random shift8. Smoothing9. Time shift
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Initial modelInitial model
CMP stackCMP stack
Time Scale Seismic imaging
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Pre-stack Kirchhoff migrationPre-stack Kirchhoff migration
depth scaletime scale
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Post-stackKirchhoffmigration
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Post-stackKirchhoffmigration
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Tesseral 2-D package allows seismic data processingobtained in other processing systems.
Post-stack migration in FK-domain (Atlantic ocean)
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8Kirchhoff post-stack migration (Pre-Caspian Basin)
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9Post-stack migration in FK-domain (Black sea)
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Some examples of VSP data processing(see corresponding presentation)
VSP shotgather afterincident waves suppression(left) and time cross-sectionobtained with dip moveoutof incident wave travelcurve (right)
Time cross-section(VSP - CDPtransformation, left),and migrated cross-section (right)
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Depth Scale Seismic Imaging
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Time field (XZ) of first arrivals of direct wave
Scalar function of intensity of direct wave. Energy highlights are showing the focusing zones.
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Depth migration in the Tesseral 2-D package uses“TIME” functionality allowing to calculate times ofarrival of first down going wave andcorresponding Green function scalar. This is used inKirchhoff-migration, a step that immediately follows thesynthetic shotgathers computation.
One can correctly perform depth migration in complexstructured media with an implied anisotropy. Thecomputations of the wavefield travel times based on theEikonal wave equation allow for a quicker migratedsection. There is vast a vast possibility in determiningvelocity models and a friendly data interface contributesto the ease of migrating modeled shotgather data and.imported real data.
Model
Result of depth migration: a – time scale, b – depth scale (model as a a contouring pad )
a
b
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Result of depth migration. Depth scale, as background is used the model contour.
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14Result of depth migration. Depth scale, as a pad is used the color velocity model.
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15Result of depth migration. Depth scale, as a background is used the model contour.
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16Result of depth migration. Depth scale. Effect of phase change at a pinchout of the high velocity layer
1000
1500
H, m
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Wave field modeling and migrationin conditions of complex structures
and uneven reliefof surface observations
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“Big Horn” model (Canadian Rocky Mountains).Rough relief of observation system
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Migrated cross-section, obtained from model “Big Horn 1”using VWKM (Vector Wave Kirchhoff Migration, MaximumEnergy operator )
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Fragment of migrated cross-section, obtained by “Big Horn 1”model:a) direct polarity of seismic signal;b) inverse polarity of seismic signal
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Fragment of migrated cross-section, obtained by “Big Horn 1”modelin gray colors: a) direct polarity of seismic signal;b) inverse polarity of seismic signal
a b
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Mountain area model (China)
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Migrated cross-section in depth scale, obtained in result of depth migration
with VWKM (First arrivals). Model is shown in background.With arrows are shown boundaries intervals, within which there isno velocity contrast. Seismic signal on those intervals is absent.
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Example of shotgather after muting
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Migrated section in time scale, obtained in result of depth migrationwith VWKM (First arrivals). With arrows are shown boundaries distortions,obtained after changing velocity by lateral.Those distortions will be eliminated in depth scale