Title :
Visualizing 2D scalar fields with hierarchical topology
Author :
Keqin Wu ; Song Zhang
Author_Institution :
I.M. Syst. Group (IMSG), NOAA, Seattle, WA, USA
Abstract :
This paper describes an effort to create new visualizations by exploiting hierarchical scalar topology. First, we build a hierarchical topology through synchronously constructing and simplifying Contour Tree (CT) and Morse-Smale (MS) complex of scalar fields. We then introduce three algorithms based on the hierarchical topology: (1) topology-based multi-resolution contouring - an overview provided for a scalar field by extracting iso-values from the simplified CT and tracing approximate contours across the MS complex cells; (2) topology based spaghetti plots for uncertainty - a seeding scheme based on the hierarchical topology for visualizing uncertainty among ensemble scalar data; (3) virtual ribbons - a new scheme for visualizing multivariate data invented by overlapping visual ribbons which encode the scalar variation of a region covered by uniform contours. We compare the new approaches with current alternatives.
Keywords :
data visualisation; topology; virtual reality; MS complex cell; Morse-Smale complex; hierarchical scalar topology; hierarchical topology; multivariate data; scalar variation; seeding scheme; synchronously constructing and simplifying contour tree; topology based spaghetti plot; topology-based multiresolution contouring; uniform contour; virtual ribbon; visual ribbon; visualizing 2D scalar field; Approximation methods; Data visualization; Feature extraction; Image color analysis; Topology; Uncertainty; Visualization; Morse-Smale complex; Scalar topology; contour tree; contouring; multivariate map; spaghetti plot;
Conference_Titel :
Visualization Symposium (PacificVis), 2015 IEEE Pacific
Conference_Location :
Hangzhou
DOI :
10.1109/PACIFICVIS.2015.7156370
