Title :
Immersive ParaView: A community-based, immersive, universal scientific visualization application
Author :
Shetty, Nikhil ; Chaudhary, Aashish ; Coming, Daniel ; Sherman, William R. ; Leary, Patrick O. ; Whiting, Eric T. ; Su, Simon
Abstract :
The availability of low-cost virtual reality (VR) systems coupled with a growing population of researchers accustomed to newer interface styles makes this a ripe time to help domain science researchers cross the bridge to utilizing immersive interfaces. The logical next step is for scientists, engineers, doctors, etc. to incorporate immersive visualization into their exploration and analysis workflows. However, from past experience, we know having access to equipment is not sufficient. There are also several software hurdles to overcome. Obstacles must be lowered to provide scientists, engineers, and medical professionals low-risk means of exploring technologies beyond their desktops.
Keywords :
data visualisation; user interfaces; virtual reality; Immersive ParaView application; immersive interface; immersive visualization; scientific visualization application; virtual reality systems; Cameras; Data visualization; Open source software; Rendering (computer graphics); Servers; Three dimensional displays; Visualization;
Conference_Titel :
Virtual Reality Conference (VR), 2011 IEEE
Conference_Location :
Singapore
Print_ISBN :
978-1-4577-0039-2
Electronic_ISBN :
1087-8270
DOI :
10.1109/VR.2011.5759487
