ClusterSets: Optimizing Planar Clusters in Categorical Point Data

Abstract
In geographic data analysis, one is often given point data of different categories (such as facilities of a university categorized by department). Drawing upon recent research on set visualization, we want to visualize category membership by connecting points of the same category with visual links. Existing approaches that follow this path usually insist on connecting all members of a category, which may lead to many crossings and visual clutter. We propose an approach that avoids crossings between connections of different categories completely. Instead of connecting all data points of the same category, we subdivide categories into smaller, local clusters where needed. We do a case study comparing the legibility of drawings produced by our approach and those by existing approaches. In our problem formulation, we are additionally given a graph G on the data points whose edges express some sort of proximity. Our aim is to find a subgraph G0 of G with the following properties: (i) edges connect only data points of the same category, (ii) no two edges cross, and (iii) the number of connected components (clusters) is minimized. We then visualize the clusters in G0. For arbitrary graphs, the resulting optimization problem, Cluster Minimization, is NP-hard (even to approximate). Therefore, we introduce two heuristics. We do an extensive benchmark test on real-world data. Comparisons with exact solutions indicate that our heuristics do astonishing well for certain relative-neighborhood graphs.
Description

        
@article{
10.1111:cgf.14322
, journal = {Computer Graphics Forum}, title = {{
ClusterSets: Optimizing Planar Clusters in Categorical Point Data
}}, author = {
Geiger, Jakob
and
Cornelsen, Sabine
and
Haunert, Jan-Henrik
and
Kindermann, Philipp
and
Mchedlidze, Tamara
and
Nöllenburg, Martin
and
Okamoto, Yoshio
and
Wolff, Alexander
}, year = {
2021
}, publisher = {
The Eurographics Association and John Wiley & Sons Ltd.
}, ISSN = {
1467-8659
}, DOI = {
10.1111/cgf.14322
} }
Citation
Collections