Multilevel agglomerative edge bundling for visualizing large graphs

Emden R. Gansner; Yifan Hu; Stephen North; Carlos Scheidegger

doi:10.1109/PACIFICVIS.2011.5742389

Multilevel agglomerative edge bundling for visualizing large graphs

Emden R. Gansner, Yifan Hu, Stephen North, Carlos Scheidegger

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

134 Scopus citations

Abstract

Graphs are often used to encapsulate relationships between objects. Node-link diagrams, commonly used to visualize graphs, suffer from visual clutter on large graphs. Edge bundling is an effective technique for alleviating clutter and revealing high-level edge patterns. Previous methods for general graph layouts either require a control mesh to guide the bundling process, which can introduce high variation in curvature along the bundles, or all-to-all force and compatibility calculations, which is not scalable. We propose a multilevel agglomerative edge bundling method based on a principled approach of minimizing ink needed to represent edges, with additional constraints on the curvature of the resulting splines. The proposed method is much faster than previous ones, able to bundle hundreds of thousands of edges in seconds, and one million edges in a few minutes.

Original language	English (US)
Title of host publication	IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings
Pages	187-194
Number of pages	8
DOIs	https://doi.org/10.1109/PACIFICVIS.2011.5742389
State	Published - 2011
Externally published	Yes
Event	4th IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Hong Kong, China Duration: Mar 1 2011 → Mar 4 2011

Publication series

Name	IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings

Other

Other	4th IEEE Pacific Visualization Symposium 2011, PacificVis 2011
Country/Territory	China
City	Hong Kong
Period	3/1/11 → 3/4/11

Keywords

Edge bundling
clustering
graph drawing
multilevel

ASJC Scopus subject areas

Computer Vision and Pattern Recognition

Access to Document

10.1109/PACIFICVIS.2011.5742389

Cite this

Multilevel agglomerative edge bundling for visualizing large graphs. / Gansner, Emden R.; Hu, Yifan; North, Stephen et al.
IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings. 2011. p. 187-194 5742389 (IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Gansner, ER, Hu, Y, North, S & Scheidegger, C 2011, Multilevel agglomerative edge bundling for visualizing large graphs. in IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings., 5742389, IEEE Pacific Visualization Symposium 2011, PacificVis 2011 - Proceedings, pp. 187-194, 4th IEEE Pacific Visualization Symposium 2011, PacificVis 2011, Hong Kong, China, 3/1/11. https://doi.org/10.1109/PACIFICVIS.2011.5742389

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title = "Multilevel agglomerative edge bundling for visualizing large graphs",

abstract = "Graphs are often used to encapsulate relationships between objects. Node-link diagrams, commonly used to visualize graphs, suffer from visual clutter on large graphs. Edge bundling is an effective technique for alleviating clutter and revealing high-level edge patterns. Previous methods for general graph layouts either require a control mesh to guide the bundling process, which can introduce high variation in curvature along the bundles, or all-to-all force and compatibility calculations, which is not scalable. We propose a multilevel agglomerative edge bundling method based on a principled approach of minimizing ink needed to represent edges, with additional constraints on the curvature of the resulting splines. The proposed method is much faster than previous ones, able to bundle hundreds of thousands of edges in seconds, and one million edges in a few minutes.",

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AU - Scheidegger, Carlos

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N2 - Graphs are often used to encapsulate relationships between objects. Node-link diagrams, commonly used to visualize graphs, suffer from visual clutter on large graphs. Edge bundling is an effective technique for alleviating clutter and revealing high-level edge patterns. Previous methods for general graph layouts either require a control mesh to guide the bundling process, which can introduce high variation in curvature along the bundles, or all-to-all force and compatibility calculations, which is not scalable. We propose a multilevel agglomerative edge bundling method based on a principled approach of minimizing ink needed to represent edges, with additional constraints on the curvature of the resulting splines. The proposed method is much faster than previous ones, able to bundle hundreds of thousands of edges in seconds, and one million edges in a few minutes.

AB - Graphs are often used to encapsulate relationships between objects. Node-link diagrams, commonly used to visualize graphs, suffer from visual clutter on large graphs. Edge bundling is an effective technique for alleviating clutter and revealing high-level edge patterns. Previous methods for general graph layouts either require a control mesh to guide the bundling process, which can introduce high variation in curvature along the bundles, or all-to-all force and compatibility calculations, which is not scalable. We propose a multilevel agglomerative edge bundling method based on a principled approach of minimizing ink needed to represent edges, with additional constraints on the curvature of the resulting splines. The proposed method is much faster than previous ones, able to bundle hundreds of thousands of edges in seconds, and one million edges in a few minutes.

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KW - clustering

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Multilevel agglomerative edge bundling for visualizing large graphs

Abstract

Publication series

Other

Keywords

ASJC Scopus subject areas

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