The Community for Technology Leaders
2017 IEEE Pacific Visualization Symposium (PacificVis) (2017)
Seoul, South Korea
April 18, 2017 to April 21, 2017
ISSN: 2165-8773
ISBN: 978-1-5090-5739-9
pp: 280-289
Maxime Dumas , Croesus Finansoft, Canada
Michael J. McGuffin , École de technologie supérieure, Canada
Patrick Chasse , Croesus Finansoft, Canada
Visualization of multiple time series often suffers from overplotting, making it difficult to read the values of curves that are hidden by other curves. We present techniques for horizontally displacing the endpoints of line segments in discrete time series data that (1) enable the depiction of subsets of data and (2) reduce occlusion of endpoints. Because endpoints are not displaced vertically, their y values can still be read and compared. Unlike small multiples, our techniques do not move points with the same x or y values far from each other, making some comparison tasks easier. We present three novel techniques: compressed-superposed, compressed-juxtaposed, and shifted layers. One limitation of our techniques is that they work best when there is only a small number of x values being visualized, and additionally, one of them (compressed-superposed) modifies the slopes of curves in a way that makes the slopes incomparable. Our experimental comparison with three status quo techniques (conventional overlaid, vertically-stacked small multiples, and horizontally-stacked small multiples) shows that our proposed techniques are competitive with status quo techniques and in some cases superior.
Data visualization, Time series analysis, Image color analysis, Image segmentation, Indexes, Spatial resolution, Electronic mail
Maxime Dumas, Michael J. McGuffin, Patrick Chasse, "Compression and shifting to reduce occlusion in multiple short time series", 2017 IEEE Pacific Visualization Symposium (PacificVis), vol. 00, no. , pp. 280-289, 2017, doi:10.1109/PACIFICVIS.2017.8031606
83 ms
(Ver 3.3 (11022016))