Authors
Alexandre Coninx, Georges-Pierre Bonneau, Jacques Droulez, Guillaume Thibault
Publication date
2011
Conference
8th international conference on Applied Perception for Graphics and Visualization (APGV 2011)
Pages
59-66
Publisher
ACM
Description
We present a new method to visualize uncertain scalar data fields by combining color scale visualization techniques with animated, perceptually adapted Perlin noise. The parameters of the Perlin noise are controlled by the uncertainty information to produce animated patterns showing local data value and quality. In order to precisely control the perception of the noise patterns, we perform a psychophysical evaluation of contrast sensitivity thresholds for a set of Perlin noise stimuli. We validate and extend this evaluation using an existing computational model. This allows us to predict the perception of the uncertainty noise patterns for arbitrary choices of parameters. We demonstrate and discuss the efficiency and the benefits of our method with various settings, color maps and data sets.
Scholar articles
A Coninx, GP Bonneau, J Droulez, G Thibault - Proceedings of the ACM SIGGRAPH symposium on …, 2011
A Coninx, GP Bonneau - Applied Perception in Graphics and Visualization