DocumentCode
1503567
Title
Rapid Dissemination of Light Transport Models on the Web
Author
Baranoski, G.V.G. ; Dimson, T. ; Chen, T.F. ; Kimmel, B. ; Yim, D. ; Miranda, E.
Volume
32
Issue
3
fYear
2012
Firstpage
10
Lastpage
15
Abstract
Light transport models are employed in applications in such varied areas as realistic image synthesis, noninvasive treatment of diseases, and remote sensing of natural resources. Openly accessible research resources can lead to significant advances involving these applications by fostering the cross-fertilization of different scientific disciplines. However, few light transport models have their source code openly available for download. Moreover, simply making the code available might not be enough; these models´ complexity usually prevents their use beyond the research groups that developed them. The NPSGD (Natural Phenomena Simulation Group Distributed) framework makes light transport models easily accessible for online use. NPSGD acts a front end, connecting model implementations to the Web. It lets researchers perform predictive and time-intensive light transport simulations in a user-friendly, fault-tolerant way. More important, as a proof of concept, NPSGD demonstrates that the reproducibility of research results through model transparency is feasible. Such reproducibility can result in fruitful collaborations between model developers and users, regardless of their field of expertise.
Keywords
Internet; human computer interaction; information dissemination; online front-ends; rendering (computer graphics); software fault tolerance; Natural Phenomena Simulation Group Distributed framework; Web dissemination; fault tolerance; light transport models; model developers; model users; online usage; openly accessible research resources; openly available source code; user friendliness; Collaboration; Complexity theory; Fault tolerant systems; Image generation; Predictive models; Remote sensing; Transport protocols; NPSGD; Natural Phenomena Simulation Group Distributed; computer graphics; light transport; light transport models; spectral attributes;
fLanguage
English
Journal_Title
Computer Graphics and Applications, IEEE
Publisher
ieee
ISSN
0272-1716
Type
jour
DOI
10.1109/MCG.2012.58
Filename
6189829
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