Topics
running timesCompany
In the last decade several algorithms that generate straight-line drawings of general large graphs have been invented. In this paper we investigate some of these methods that are based on force-directed or algebraic approaches in terms of running time and drawing quality on a big variety of artificial and real-world graphs. Our experiments indicate that there exist significant differences in drawing qualities and running times depending on the classes of tested graphs and algorithms
Understanding the structure, dynamics, and evolution of large graphs is becoming increasingly import...
Given a large planar graph we want to display it in a meaningful fashion. We present VLGD: a new, s...
Reducing the number of edge crossings is considered one of the most important graph drawing aestheti...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
We present a multi-scale layout algorithm for the aesthetic drawing of undirected graphs with straig...
AbstractWe present a novel hierarchical force-directed method for drawing large graphs. Given a grap...
The visualization of of large and complex networks or graphs is an indispensable instrument for gett...
AbstractWe describe a multi-scale approach to the problem of drawing undirected graphs “nicely”, wit...
We present a novel hierarchical force-directed method for drawing large graphs. The algorithm produc...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
AbstractWe present a novel hierarchical force-directed method for drawing large graphs. Given a grap...
Understanding the structure, dynamics, and evolution of large graphs is becoming increasingly import...
Given a large planar graph we want to display it in a meaningful fashion. We present VLGD: a new, s...
Reducing the number of edge crossings is considered one of the most important graph drawing aestheti...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
In the last decade several algorithms that generate straight-line drawings of general large graphs h...
We present a multi-scale layout algorithm for the aesthetic drawing of undirected graphs with straig...
AbstractWe present a novel hierarchical force-directed method for drawing large graphs. Given a grap...
The visualization of of large and complex networks or graphs is an indispensable instrument for gett...
AbstractWe describe a multi-scale approach to the problem of drawing undirected graphs “nicely”, wit...
We present a novel hierarchical force-directed method for drawing large graphs. The algorithm produc...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
The aim of automatic graph drawing is to compute a well-readable layout of a given graph G=(V,E). On...
AbstractWe present a novel hierarchical force-directed method for drawing large graphs. Given a grap...
Understanding the structure, dynamics, and evolution of large graphs is becoming increasingly import...
Given a large planar graph we want to display it in a meaningful fashion. We present VLGD: a new, s...
Reducing the number of edge crossings is considered one of the most important graph drawing aestheti...
Add to ORKG