Visualization of large scale time-varying volumetric datasets is an active topic of research. Technical limitations in terms of bandwidth and memory usage become a problem when visualizing these datasets on commodity computers at interactive frame rates. The overall objective is to overcome these limitations by adapting the methods of an existing Direct Volume Rendering pipeline. The objective is considered to be a proof of concept to assess the feasibility of visualizing large scale time-varying datasets using this pipeline. The pipeline consists of components from previous research, which make extensive use of graphics hardware to visualize large scale static data on commodity computers. This report presents a diploma work, which adapts t...
The research described in this thesis was part of a larger research project about multi-phase flows....
Volume rendering is a very active research field in Computer Graphics because of its wide range of a...
The visual representation of complex data has always been a major motivation for computer graphics. ...
Abstract —In computational flow visualization, integration based geometric flow visualization is oft...
During the four years of this grant (including the one year extension), we have explored many aspect...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Abstract. This paper presents two visualization techniques suitable for huge oceanography time-varyi...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Modern computational fluid dynamics simulations are capable of the detailed simulation of fluid flow...
This paper presents a set of feature enhancement techniques coupled with hardware-accelerated nonpho...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
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...
The research described in this thesis was part of a larger research project about multi-phase flows....
Volume rendering is a very active research field in Computer Graphics because of its wide range of a...
The visual representation of complex data has always been a major motivation for computer graphics. ...
Abstract —In computational flow visualization, integration based geometric flow visualization is oft...
During the four years of this grant (including the one year extension), we have explored many aspect...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
Our ability to study and understand complex, transient phenomena is critical to solving many scienti...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Abstract. This paper presents two visualization techniques suitable for huge oceanography time-varyi...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
Modern computational fluid dynamics simulations are capable of the detailed simulation of fluid flow...
This paper presents a set of feature enhancement techniques coupled with hardware-accelerated nonpho...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
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...
The research described in this thesis was part of a larger research project about multi-phase flows....
Volume rendering is a very active research field in Computer Graphics because of its wide range of a...
The visual representation of complex data has always been a major motivation for computer graphics. ...