论文信息 - Efficient visualization of large amounts of particle trajectories in virtual environments using virtual tubelets

Efficient visualization of large amounts of particle trajectories in virtual environments using virtual tubelets

An effective means for flow visualization is the depiction of particle trajectories. When rendering large amounts of these pathlines, standard visualization techniques suffer from several weaknesses, ranging from ambiguous depth perception to high geometrical complexity and decreased interactivity. This paper addresses these problems by choosing a novel approach to pathline visualization in 3D space, which we call Virtual Tubelets. It employs billboarding techniques in combination with suitable textures to create the illusion of three-dimensional tubes, which efficiently depict the particles' trajectories, while still maintaining interactive frame rates. Certain issues concerning virtual environments and immersive displays with multiple projection screens are resolved by choosing an appropriate orientation for the billboards. The use of modern, programmable graphics hardware allows for an additional speed-up of the rendering process and a further improvement of the image quality. This results in a nearly perfect illusion of tubular geometry, including plausible intersections and consistent illumination with the rest of the scene. To prove the efficiency of our approach, rendering speed and visual quality of Virtual Tubelets and conventional, polygonal tube renderings are compared.

[1] Todd Plessel,et al. FAST - A multiprocessed environment for visualization of computational fluid dynamics , 1991 .

[2] R. Kevin McCabe,et al. FAST: a multi-processed environment for visualization of computational fluid dynamics , 1990, Proceedings of the First IEEE Conference on Visualization: Visualization `90.

[3] Tomas Akenine-Möller,et al. Real-time rendering , 1997 .

[4] William Schroeder,et al. The Visualization Toolkit: An Object-Oriented Approach to 3-D Graphics , 1997 .

[5] Dipl.-Ing,et al. Real-time Rendering , 2022 .

[6] Eduard Gröller,et al. Strategies for interactive exploration of 3D flow using evenly-spaced illuminated streamlines , 2003, SCCG '03.

[7] Victoria Interrante,et al. Strategies for effectively visualizing 3D flow with volume LIC , 1997, Proceedings. Visualization '97 (Cat. No. 97CB36155).

[8] Brian Cabral,et al. Imaging vector fields using line integral convolution , 1993, SIGGRAPH.

[9] William E. Lorensen,et al. The visualization toolkit (2nd ed.): an object-oriented approach to 3D graphics , 1998 .

[10] Anton L. Fuhrmann,et al. Real-time techniques for 3D flow visualization , 1998, Proceedings Visualization '98 (Cat. No.98CB36276).

[11] H.-C. Hege,et al. Interactive visualization of 3D-vector fields using illuminated stream lines , 1996, Proceedings of Seventh Annual IEEE Visualization '96.

[12] Victoria Interrante,et al. Strategies for effectively visualizing 3D flow with volume LIC , 1997 .