Title :
ISA and IBFVS: image space-based visualization of flow on surfaces
Author :
Laramee, Robert S. ; Van Wijk, Jarke J. ; Jobard, Bruno ; Hauser, Helwig
Author_Institution :
VRVIs Res. Center, Vienna, Austria
Abstract :
We present a side-by-side analysis of two recent image space approaches for the visualization of vector fields on surfaces. The two methods, image space advection (ISA) and image-based flow visualization for curved surfaces (IBFVS) generate dense representations of time-dependent vector fields with high spatio-temporal correlation. While the 3D vector fields are associated with arbitrary surfaces represented by triangular meshes, the generation and advection of texture properties is confined to image space. Fast frame rates are achieved by exploiting frame-to-frame coherency and graphics hardware. In our comparison of ISA and IBFVS, we point out the strengths and weaknesses of each approach and give recommendations as to when and where they are best applied.
Keywords :
computational fluid dynamics; computational geometry; computer graphic equipment; correlation methods; flow visualisation; image texture; mesh generation; rendering (computer graphics); surface fitting; 3D vector fields; computational fluid dynamics; curved surfaces; graphics hardware; image space advection; image space-based flow visualization; spatio-temporal correlation; surface rendering; surface representation; texture mapping; texture properties; time-dependent vector field; triangular meshes; unsteady flow visualization; Computational fluid dynamics; Computer Society; Fluid flow; Functional analysis; Geometry; Image analysis; Instruction sets; Rendering (computer graphics); Surface texture; Visualization; 65; CFD; Index Terms- Unsteady flow visualization; computational fluid dynamics; surface rendering; surface representation; texture mapping.;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2004.47
