This paper describes a high-performance special-purpose system, the Cube-3 machine, for displaying and manipulating high-resolution volumetric datasets in real-time. Cube-3 will allow scientists, engineers, and biomedical researchers to interactively visualize and investigate their static high-resolution sampled, simulated, or computed volumetric dataset. Furthermore, once acquisition devices or mechanisms are capable of acquiring a complete high-resolution dynamic dataset in real-time, Cube-3, tightly coupled with them, will be capable of delivering real-time 4D (spatial-temporal) volume visualization, a task currently not possible with present technologies
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Abstract: We present a framework to interactively volume-render three-dimensional data cubes using d...
Volume visualization is rapidly becoming the preferred tool for the estimation of anatomical feature...
This paper describes a high-performance special-purpose system, Cube-3, for displaying and manipulat...
This paper describes two prototype implementations of the Cube-4 architecture on the Teramac hardwar...
Introduction 1.1 Volume rendering One popular technique for imaging scientific data is volume visu...
In this paper we present our research eff orts towards a scalable volume rendering architecture for ...
This paper presents some key aspects of VISUAL3, a highly-interactive visualization environment for ...
Abstract-An architecture for a Real-Time Volume Rendering Engine (RT-VRE) is given, capable of compu...
This paper will concentrate on the two new commercially available systems, the Denali from Kubota Pa...
The goal of this project is to create a software application that permits the visualizationof 3D sam...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
Over the last decade, volume rendering has become an invaluable visualization technique for a wide v...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Abstract: We present a framework to interactively volume-render three-dimensional data cubes using d...
Volume visualization is rapidly becoming the preferred tool for the estimation of anatomical feature...
This paper describes a high-performance special-purpose system, Cube-3, for displaying and manipulat...
This paper describes two prototype implementations of the Cube-4 architecture on the Teramac hardwar...
Introduction 1.1 Volume rendering One popular technique for imaging scientific data is volume visu...
In this paper we present our research eff orts towards a scalable volume rendering architecture for ...
This paper presents some key aspects of VISUAL3, a highly-interactive visualization environment for ...
Abstract-An architecture for a Real-Time Volume Rendering Engine (RT-VRE) is given, capable of compu...
This paper will concentrate on the two new commercially available systems, the Denali from Kubota Pa...
The goal of this project is to create a software application that permits the visualizationof 3D sam...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
Over the last decade, volume rendering has become an invaluable visualization technique for a wide v...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Abstract: We present a framework to interactively volume-render three-dimensional data cubes using d...
Volume visualization is rapidly becoming the preferred tool for the estimation of anatomical feature...