big data mega surveys pushing the boundaries
DESCRIPTION
TRANSCRIPT
Big data – Mega Surveys Pushing the
Boundaries
Content
• Why do we use Geocap?
• From Seeds to Grids
• Data Example: Barents Sea MegaProject
• Data Example: North Sea MegaSurvey
• Integration into ArcGIS
2
Why do we use Geocap
• Gridding process considers multiple polygons
• Handles large data volumes
• Qc in 3D view
• “Grid to Grid” operations
• Merge of grids/horizons
• Illustration purposes
• Time efficient
3
From Seeds to Grids
From seeds to grids
5
Kingdom IHS Geocap
Seed
Interpretation Autotracked Horizon
Final Product
Delivery ArcGIS PGS
Library
Polygons Import into Geocap
Gridding with 50x50 Increment Grid Grid to Grid Operation
Barents Sea Mega Project
PGS Barents Sea MegaProject
• 34 3D surveys that cover more than 22777 km²
• 173 2D surveys, covering 221030 line-kilometers
7
Seismic Interpretation – Barents Sea MegaProject
8
15km
2D Seed Interpretation – Near Base Cretaceous
9
Shallow
Deep
3D Auttracked Horizon – Near Base Cretaceous
10
Shallow
Deep
Final Grids – Barents Sea MegaProject
11
A
B
Shallow
Deep
Final Grids – Barents Sea MegaProject
12
A
B
Shallow
Deep
Final Grids – Barents Sea MegaProject
13
A
B
Shallow
Deep
2D seeds merged with 3D autotracked horizon – Barents Sea
MegaProject
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Shallow
Deep
Grid from merged 2D seeds and 3D autotracked horizon
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Shallow
Deep
North Sea MegaSurvey
PGS North Sea MegaSurvey
17
Legend
North Sea MegaSurvey
Post stack merge of public released 3D data and
PGS proprietary data sets
138 000 km² 3D seismic data (Coverage in
Norway, UK, Denmark, Germany and in the
Netherlands)
“Live Product” - the MegaSurvey gets annually
updated with new released surveys and is thus a
growing and expanding data volume
North Sea MegaSurvey
18
A
B
A B
900km
Size of autotracked horizon: 5.5GB
Near Top Paleocene
Base Tertiary
Near Top Lower Cretaceous
Base Cretaceous Unconformity
Base Cretaceous in Geocap
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3D View 2D View
Shallow
Deep
Base Cretaceous in ArcGIS
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