Title :
Application-Driven Compression for Visualizing Large-Scale Time-Varying Data
Author :
Chaoli Wang ; Hongfeng Yu ; Kwan-Liu Ma
Author_Institution :
Michigan Technol. Univ., Houghton, MI, USA
Abstract :
We advocate an application-driven approach to compressing and rendering large-scale time-varying scientific-simulation data. Scientists often have specific visualization tasks in mind based on certain domain knowledge. For example, in the context of time-varying, multivariate volume-data visualization, a scientist´s domain knowledge might include the salient isosurface of interest for some variable. Given this knowledge, the scientist might want to observe spatiotemporal relationships among other variables in the neighborhood of that isosurface. We´ve tried to directly incorporate such knowledge and tasks into data reduction, compression, and rendering. Here, we present our solution andexperimental results for two largescale time-varying, multivariate scientific data sets.
Keywords :
data compression; data visualisation; natural sciences computing; rendering (computer graphics); application-driven compression; data reduction; large-scale time-varying scientific-simulation data rendering; large-scale time-varying scientific-simulation data visualization; multivariate volume-data visualization; spatiotemporal relationships; Data visualization; Isosurfaces; Large-scale systems; Spatiotemporal phenomena; bit-wise texture packing; computer graphics; deferred filtering; graphics and multimedia; importance-based compression; large-data visualization; time-varying data visualization;
Journal_Title :
Computer Graphics and Applications, IEEE
