• Medientyp: E-Artikel
  • Titel: Multilevel Coarsening for Interactive Visualization of Large Bipartite Networks
  • Beteiligte: Valejo, Alan Demétrius Baria; Fabbri, Renato; de Andrade Lopes, Alneu; Zhao, Liang; de Oliveira, Maria Cristina Ferreira
  • Erschienen: Frontiers Media SA, 2022
  • Erschienen in: Frontiers in Research Metrics and Analytics, 7 (2022)
  • Sprache: Nicht zu entscheiden
  • DOI: 10.3389/frma.2022.855165
  • ISSN: 2504-0537
  • Schlagwörter: General Medicine
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  • Beschreibung: Bipartite networks are pervasive in modeling real-world phenomena and play a fundamental role in graph theory. Interactive exploratory visualization of such networks is an important problem, and particularly challenging when handling large networks. In this paper we present results from an investigation on using a general multilevel method for this purpose. Multilevel methods on networks have been introduced as a general approach to increase scalability of community detection and other complex optimization algorithms. They employ graph coarsening algorithms to create a hierarchy of increasingly coarser (reduced) approximations of an original network. Multilevel coarsening has been applied, e.g., to the problem of drawing simple (“unipartite”) networks. We build on previous work that extended multilevel coarsening to bipartite graphs to propose a visualization interface that uses multilevel coarsening to compute a multi-resolution hierarchical representation of an input bipartite network. From this hierarchy, interactive node-link drawings are displayed following a genuine route of the “overview first, zoom and filter, details on demand” visual information seeking mantra. Analysts may depart from the coarsest representation and select nodes or sub-graphs to be expanded and shown at greater detail. Besides intuitive navigation of large-scale networks, this solution affords great flexibility, as users are free to select different coarsening strategies in different scenarios. We illustrate its potential with case studies involving real networks on distinct domains. The experimental analysis shows our strategy is effective to reveal topological structures, such as communities and holes, that may remain hidden in a conventional node-link layout. It is also useful to highlight connectivity patterns across the bipartite layers, as illustrated in an example that emphasizes the correlation between diseases and genes in genetic disorders, and in a study of a scientific collaboration network of authors and papers.
  • Zugangsstatus: Freier Zugang