The programmability and texture support of consumer graphics accelerators have drawn a lot of attention from visualization researchers, resultingin some very important advances in interactive volume data visualization. For many applications, scientists can now perform routine data visualization and analysis tasks on their desktop PC with a consumer graphics card that was designed mainly for playing video games. This paper presents several representative hardware-accelerated algorithms that have been introduced recently to address the problems of classification, illumination, non-photorealistic rendering, decoding, and image compositing in volume data visualization
The emergence of volume graphics, a sub field in computer graphics, has been evident for the last 15...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Over the last decade, volume rendering has become an invaluable visualization technique for a wide v...
Non-photorealistic rendering can be used to illustrate subtle spatial relationships that might not b...
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 ...
In this thesis we investigated several advanced techniques in visualization of large data sets, mult...
Scientific Visualization gives researchers the opportunity to explore their data with the aid of com...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
Introduction 1.1 Volume rendering One popular technique for imaging scientific data is volume visu...
Abstract. With the broad availability and increasing performance of commodity graphics processors (G...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
We introduce a novel texture-based volume rendering approach that achieves the image quality of the ...
The emergence of volume graphics, a sub field in computer graphics, has been evident for the last 15...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Over the last decade, volume rendering has become an invaluable visualization technique for a wide v...
Non-photorealistic rendering can be used to illustrate subtle spatial relationships that might not b...
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 ...
In this thesis we investigated several advanced techniques in visualization of large data sets, mult...
Scientific Visualization gives researchers the opportunity to explore their data with the aid of com...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
Introduction 1.1 Volume rendering One popular technique for imaging scientific data is volume visu...
Abstract. With the broad availability and increasing performance of commodity graphics processors (G...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
We introduce a novel texture-based volume rendering approach that achieves the image quality of the ...
The emergence of volume graphics, a sub field in computer graphics, has been evident for the last 15...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Over the last decade, volume rendering has become an invaluable visualization technique for a wide v...