For the past twelve months, we have conducted and completed a joint research entitled "Time- Critical Volume Rendering" with NASA Ames. As expected, High performance volume rendering algorithms have been developed by exploring some new faster rendering techniques, including object presence acceleration, parallel processing, and hierarchical level-of-detail representation. Using our new techniques, initial experiments have achieved real-time rendering rates of more than 10 frames per second of various 3D data sets with highest resolution. A couple of joint papers and technique reports as well as an interactive real-time demo have been compiled as the result of this project
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Volume rendering is a key technique in scientific visualization that lends itself to significant exp...
Volume rendering is one of the key technique to display data from diverse application fields like me...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
In this paper we present our research eff orts towards a scalable volume rendering architecture for ...
Nowadays, more and more virtual manufacturing simulations use volume rendering technology to enhance...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Traditional 3D computer graphics focus on rendering the exterior of objects. Volume rendering is a t...
This paper describes VolumePro, the world’s first single-chip realtime volume rendering system for c...
Journal ArticleThis paper presents a data distributed parallel raytraced volume rendering algorithm ...
Volume rendering by ray casting is computationally expensive. For interactive volume visualization, ...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
As data sets, both acquired from scanners and those generated from complex simulations, grow in size...
Volume rendering by ray casting is a computation-ally expensive problem. For interactive volume visu...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Volume rendering is a key technique in scientific visualization that lends itself to significant exp...
Volume rendering is one of the key technique to display data from diverse application fields like me...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
In this paper we present our research eff orts towards a scalable volume rendering architecture for ...
Nowadays, more and more virtual manufacturing simulations use volume rendering technology to enhance...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Traditional 3D computer graphics focus on rendering the exterior of objects. Volume rendering is a t...
This paper describes VolumePro, the world’s first single-chip realtime volume rendering system for c...
Journal ArticleThis paper presents a data distributed parallel raytraced volume rendering algorithm ...
Volume rendering by ray casting is computationally expensive. For interactive volume visualization, ...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
As data sets, both acquired from scanners and those generated from complex simulations, grow in size...
Volume rendering by ray casting is a computation-ally expensive problem. For interactive volume visu...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Volume rendering is a key technique in scientific visualization that lends itself to significant exp...
Volume rendering is one of the key technique to display data from diverse application fields like me...