DocumentCode
1824072
Title
Seismic volume visualization for horizon extraction
Author
Patel, Daniel ; Bruckner, Stefan ; Viola, Ivan ; Groller, Eduard M.
Author_Institution
Christian Michelsen Res., Bergen, Norway
fYear
2010
fDate
2-5 March 2010
Firstpage
73
Lastpage
80
Abstract
Seismic horizons indicate change in rock properties and are central in geoscience interpretation. Traditional interpretation systems involve time consuming and repetitive manual volumetric seeding for horizon growing. We present a novel system for rapidly interpreting and visualizing seismic volumetric data. First we extract horizon surface-parts by preprocessing the seismic data. Then during interaction the user can assemble in realtime the horizon parts into horizons. Traditional interpretation systems use gradient-based illumination models in the rendering of the seismic volume and polygon rendering of horizon surfaces. We employ realtime gradient-free forward-scattering in the rendering of seismic volumes yielding results similar to high-quality global illumination. We use an implicit surface representation of horizons allowing for a seamless integration of horizon rendering and volume rendering. We present a collection of novel techniques constituting an interpretation and visualization system highly tailored to seismic data interpretation.
Keywords
data visualisation; feature extraction; geophysics computing; rendering (computer graphics); rocks; seismology; geoscience interpretation system; gradient-based illumination models; gradient-free forward-scattering; high-quality global illumination; horizon extraction; horizon rendering; implicit surface representation; polygon rendering; repetitive manual volumetric seeding; rock properties; seismic data interpretation system; seismic volume data visualization; seismic volume rendering; Acoustic reflection; Assembly; Computer graphics; Data mining; Data visualization; Fault diagnosis; Hydrocarbons; Informatics; Lighting; Reservoirs; Ambient occlusion; GPU acceleration; Seismic horizons; Seismic interpretation; Volume rendering;
fLanguage
English
Publisher
ieee
Conference_Titel
Visualization Symposium (PacificVis), 2010 IEEE Pacific
Conference_Location
Taipei
Print_ISBN
978-1-4244-6685-6
Electronic_ISBN
978-1-4244-6686-3
Type
conf
DOI
10.1109/PACIFICVIS.2010.5429605
Filename
5429605
Link To Document