Title :
Seismic volume visualization for horizon extraction
Author :
Patel, Daniel ; Bruckner, Stefan ; Viola, Ivan ; Groller, Eduard M.
Author_Institution :
Christian Michelsen Res., Bergen, Norway
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;
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
DOI :
10.1109/PACIFICVIS.2010.5429605
