Title :
Hybrid-Image Visualization for Large Viewing Environments
Author :
Isenberg, Petra ; Dragicevic, Pierre ; Willett, Wesley ; Bezerianos, Anastasios ; Fekete, Jean-Daniel
Abstract :
We present a first investigation into hybrid-image visualization for data analysis in large-scale viewing environments. Hybrid-image visualizations blend two different visual representations into a single static view, such that each representation can be perceived at a different viewing distance. Our work is motivated by data analysis scenarios that incorporate one or more displays with sufficiently large size and resolution to be comfortably viewed by different people from various distances. Hybrid-image visualizations can be used, in particular, to enhance overview tasks from a distance and detail-in-context tasks when standing close to the display. By using a perception-based blending approach, hybrid-image visualizations make two full-screen visualizations accessible without tracking viewers in front of a display. We contribute a design space, discuss the perceptual rationale for our work, provide examples, and introduce a set of techniques and tools to aid the design of hybrid-image visualizations.
Keywords :
computer displays; data analysis; data visualisation; data analysis scenarios; design space; detail-in-context tasks; displays; full-screen visualizations; hybrid-image visualization; large-scale viewing environments; perception-based blending approach; static view; visual representations; Data visualization; Encoding; Frequency-domain analysis; Image color analysis; Data visualization; Encoding; Frequency-domain analysis; Image color analysis; Multi-scale; collaboration; hybrid images; large displays; visualization; Algorithms; Computer Graphics; Ecosystem; Humans; Image Enhancement; Information Storage and Retrieval; Reproducibility of Results; Sensitivity and Specificity; User-Computer Interface; Visual Perception;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2013.163
