3D contour perception for flow visualization

Citation data:

Proceedings - APGV 2006: Symposium on Applied Perception in Graphics and Visualization, Vol: 0, Page: 101-106

Publication Year:
2006
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Citations 13
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Repository URL:
https://scholars.unh.edu/ccom/810
DOI:
10.1145/1140491.1140512
Author(s):
Ware, Colin
Publisher(s):
Association for Computing Machinery (ACM)
Tags:
Computer Science; stereo viewing; flow visualization; depth cues.; Computer Sciences
conference paper description
One of the most challenging problems in data visualization is the perception of 3D flow fields because judging the orientation of 3D paths is perceptually difficult. It is hypothesized that perception of the orientations of streamlines in space can greatly benefit from stereoscopic depth cues and motion parallax. In addition, because stereoscopic depth perception is a super-acuity and relies on such factors as small-scale stereoscopic disparity gradient based on texture, stereoscopic depth judgments will be exceptionally sensitive to display quality. In conventional displays, the aliasing of pixels gives completely spurious texture information to the mechanisms of stereoscopic depth perception. We carried out a study to evaluate the importance of 3D cues in perceiving the orientation of curved contours. The result showed that stereo and motion cues are essential to perceiving the orientation of 3D lines. If, however, the contours are rendered as shaded tubes, good orientation information is available even without stereo or motion depth cues. Copyright © 2006 by the Association for Computing Machinery, Inc.