Multi-dimensional transfer functions for interactive 3D flow visualization

Multi-dimensional transfer functions for interactive 3D flow visualization

Transfer functions are a standard technique used in volume rendering to assign color and opacity to a volume of a scalar field. Multidimensional transfer functions (MDTFs) have proven to be an effective way to extract specific features with subtle properties. As 3D texture-based methods gain widespr...

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Bibliographic Details
Published in:12th Pacific Conference on Computer Graphics and Applications, 2004. PG 2004. Proceedings pp. 177 - 185
Main Authors: Park, S.W., Budge, B., Linsen, L., Hamann, B., Joy, K.I.
Format: Conference Proceeding
Language:English
Published: IEEE 2004
Subjects:
Calculus
Computer science
Data analysis
Data mining
Data visualization
Feature extraction
Graphics
Hardware
Rendering (computer graphics)
Transfer functions
Online Access:Get full text
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Summary:Transfer functions are a standard technique used in volume rendering to assign color and opacity to a volume of a scalar field. Multidimensional transfer functions (MDTFs) have proven to be an effective way to extract specific features with subtle properties. As 3D texture-based methods gain widespread popularity for the visualization of steady and unsteady flow field data, there is a need to define and apply similar MDTFs to interactive 3D flow visualization. We exploit flow field properties such as velocity, gradient, curl, helicity, and divergence using vector calculus methods to define an MDTF that can be used to extract and track features in a flow field. We show how the defined MDTF can be applied to interactive 3D flow visualization by combining them with state-of-the-art texture-based flow visualization of steady and unsteady fields. We demonstrate that MDTFs can be used to help alleviate the problem of occlusion, which is one of the main inherent drawbacks of 3D texture-based flow visualization techniques. In our implementation, we make use of current graphics hardware to obtain interactive frame rates.
ISBN:9780769522340
0769522343
ISSN:1550-4085
DOI:10.1109/PCCGA.2004.1348348