Spring Embedders and Force Directed Graph Drawing Algorithms
S. Kobourov. (2012)cite arxiv:1201.3011Comment: 23 pages, 8 figures.
Abstract
Force-directed algorithms are among the most flexible methods for calculating
layouts of simple undirected graphs. Also known as spring embedders, such
algorithms calculate the layout of a graph using only information contained
within the structure of the graph itself, rather than relying on
domain-specific knowledge. Graphs drawn with these algorithms tend to be
aesthetically pleasing, exhibit symmetries, and tend to produce crossing-free
layouts for planar graphs. In this survey we consider several classical
algorithms, starting from Tutte's 1963 barycentric method, and including recent
scalable multiscale methods for large and dynamic graphs.
Description
Spring Embedders and Force Directed Graph Drawing Algorithms
%0 Generic
%1 kobourov2012spring
%A Kobourov, Stephen G.
%D 2012
%K graph survey visualization
%T Spring Embedders and Force Directed Graph Drawing Algorithms
%U http://arxiv.org/abs/1201.3011
%X Force-directed algorithms are among the most flexible methods for calculating
layouts of simple undirected graphs. Also known as spring embedders, such
algorithms calculate the layout of a graph using only information contained
within the structure of the graph itself, rather than relying on
domain-specific knowledge. Graphs drawn with these algorithms tend to be
aesthetically pleasing, exhibit symmetries, and tend to produce crossing-free
layouts for planar graphs. In this survey we consider several classical
algorithms, starting from Tutte's 1963 barycentric method, and including recent
scalable multiscale methods for large and dynamic graphs.
@misc{kobourov2012spring,
abstract = {Force-directed algorithms are among the most flexible methods for calculating
layouts of simple undirected graphs. Also known as spring embedders, such
algorithms calculate the layout of a graph using only information contained
within the structure of the graph itself, rather than relying on
domain-specific knowledge. Graphs drawn with these algorithms tend to be
aesthetically pleasing, exhibit symmetries, and tend to produce crossing-free
layouts for planar graphs. In this survey we consider several classical
algorithms, starting from Tutte's 1963 barycentric method, and including recent
scalable multiscale methods for large and dynamic graphs.},
added-at = {2013-10-09T13:58:18.000+0200},
author = {Kobourov, Stephen G.},
biburl = {https://www.bibsonomy.org/bibtex/22de27e4b0b4377c818e588b1ee35b06e/folke},
description = {Spring Embedders and Force Directed Graph Drawing Algorithms},
interhash = {b70c6c096ee17367dd474edd0338fb8b},
intrahash = {2de27e4b0b4377c818e588b1ee35b06e},
keywords = {graph survey visualization},
note = {cite arxiv:1201.3011Comment: 23 pages, 8 figures},
timestamp = {2013-10-09T13:58:18.000+0200},
title = {Spring Embedders and Force Directed Graph Drawing Algorithms},
url = {http://arxiv.org/abs/1201.3011},
year = 2012
}