Journal ArticleIn order to interactively investigate large-scale 3D data sets, we propose an improved hierarchical data structure for structured grids and an original hierarchical d a t a structure for unstructured grids. These multi-tiered implementations allow the user to interactively control both the local and global density of the mesh. Therefore, the user can interactively refine areas of interest and decimate peripheral regions. By controlling the density of the mesh throughout the volume, the user controls where computational cycles are spent and gains a deeper insight into the geometric structure of the mesh
Figure 1: A sequence of progressive volume rendering steps for the SF1 dataset consisting of about 1...
In this paper, we present a novel approach for a tighter integration of 3D modeling and physically- ...
Large hyper-volume visualization is required by today physic and is still a research area in scienti...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
We are beginning to see an overload in the amount of information packed into a given visualization. ...
Massive data sets coming from complex simulations are “unwill-ing ” to fit completely inside compute...
In this paper, we address the problem of the efficient visualization of large irregular volume data ...
(d) 0.15 fps 3065000 tetra-hedra Figure 1: The bonsa data set at dierent detail levels. Frame rate...
A new visualization representation is described, which dramatically improves interactivity for scien...
This paper introduces an optimization approach for generating grid layouts from large data collectio...
90 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In this dissertation we propos...
Abstract Hierarchical mesh representation and mesh simplification have been addressed in computer gr...
With the development of 3D scanning and imaging technologies, large amount of 3D surface and volumet...
Interactive exploration of multidimensional data sets is challenging because: (1) it is difficult to...
We present a novel bounding volume hierarchy for GPU-accelerated direct volume rendering (DVR) as we...
Figure 1: A sequence of progressive volume rendering steps for the SF1 dataset consisting of about 1...
In this paper, we present a novel approach for a tighter integration of 3D modeling and physically- ...
Large hyper-volume visualization is required by today physic and is still a research area in scienti...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
We are beginning to see an overload in the amount of information packed into a given visualization. ...
Massive data sets coming from complex simulations are “unwill-ing ” to fit completely inside compute...
In this paper, we address the problem of the efficient visualization of large irregular volume data ...
(d) 0.15 fps 3065000 tetra-hedra Figure 1: The bonsa data set at dierent detail levels. Frame rate...
A new visualization representation is described, which dramatically improves interactivity for scien...
This paper introduces an optimization approach for generating grid layouts from large data collectio...
90 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In this dissertation we propos...
Abstract Hierarchical mesh representation and mesh simplification have been addressed in computer gr...
With the development of 3D scanning and imaging technologies, large amount of 3D surface and volumet...
Interactive exploration of multidimensional data sets is challenging because: (1) it is difficult to...
We present a novel bounding volume hierarchy for GPU-accelerated direct volume rendering (DVR) as we...
Figure 1: A sequence of progressive volume rendering steps for the SF1 dataset consisting of about 1...
In this paper, we present a novel approach for a tighter integration of 3D modeling and physically- ...
Large hyper-volume visualization is required by today physic and is still a research area in scienti...