Our ability to study and understand complex, transient phenomena is critical to solving many scientific and engi-neering problems. This paper addresses the issues in stor-age space, I/O, and rendering for visualizing time-varying volume data. A suite of effective techniques, including en-coding, parallel rendering, and runtime visualization tech-niques are discussed. In particular, we introduce a new hardware-assisted technique coupled with a compression scheme based on Discrete Cosine Transform which allows interactive exploration in both spatial and temporal do-mains of the data using a PC with a commodity graphics card
This paper presents a set of feature enhance-ment techniques coupled with hardware-accelerated non-p...
In this thesis we investigated several advanced techniques in visualization of large data sets, mult...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
In this paper we present a hardware-assisted rendering technique coupled with a compression scheme f...
In this paper we present a hardware-assisted rendering tech-nique coupled with a compression scheme ...
Volume rendering is a very active research field in Computer Graphics because of its wide range of a...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Visualization of time-varying volumetric data sets, which may be obtained from numerical simulations...
Visualization of large scale time-varying volumetric datasets is an active topic of research. Techni...
Interactive visualization of time-varying volume data is essential for many scientific simulations. ...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
We present a systematic approach for direct volume rendering terascale-sized data that are time-vary...
The programmability and texture support of consumer graphics accelerators have drawn a lot of attent...
This paper presents a set of feature enhance-ment techniques coupled with hardware-accelerated non-p...
In this thesis we investigated several advanced techniques in visualization of large data sets, mult...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
In this paper we present a hardware-assisted rendering technique coupled with a compression scheme f...
In this paper we present a hardware-assisted rendering tech-nique coupled with a compression scheme ...
Volume rendering is a very active research field in Computer Graphics because of its wide range of a...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Visualization of time-varying volumetric data sets, which may be obtained from numerical simulations...
Visualization of large scale time-varying volumetric datasets is an active topic of research. Techni...
Interactive visualization of time-varying volume data is essential for many scientific simulations. ...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
We present a systematic approach for direct volume rendering terascale-sized data that are time-vary...
The programmability and texture support of consumer graphics accelerators have drawn a lot of attent...
This paper presents a set of feature enhance-ment techniques coupled with hardware-accelerated non-p...
In this thesis we investigated several advanced techniques in visualization of large data sets, mult...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...