Add to ORKGEvolving trees arise in many real-life scenarios from computer file systems and dynamic call graphs, to fake news propagation and disease spread. Most layout algorithms for static trees do not work well in an evolving setting (e.g., they are not designed to be stable between time steps). Dynamic graph layout algorithms are better suited to this task, although they often introduce unnecessary edge crossings. With this in mind we propose two methods for visualizing evolving trees that guarantee no edge crossings, while optimizing (1) desired edge length realization, (2) layout compactness, and (3) stability. We evaluate the two new methods, along with five prior approaches (three static and two dynamic), on real-world datasets using quantitat...
The visualization of networks as graphs composed of nodes and vertices benefits many fields of scien...
In streamed graph drawing, a planar graph, G, is given incrementally as a data stream and a straight...
How do real graphs evolve over time? What are ``normal'' growth patterns in social, technological, a...
Tree Drawings have been used extensively in software engineering and many other business and compute...
We consider temporally evolving trees with changing topology and data: tree nodes may persist for a ...
Computing treemap layouts for time-dependent (dynamic) trees is an open problem in information visua...
We introduce an interactive graph visualization scheme that allows users to explore graphs by viewin...
Our goal is to visualize an additional data dimension of a tree with multifaceted data through super...
Paper presented at the Proceedings of IEEE Symposium on Information Visualization, 2003, Seattle, Wa...
While the algorithmic drawing of static trees is well-understood and well-supported by software tool...
The study of evolution of networks has received increased interest with the recent discovery that ma...
Motivated by applications that concern graphs that are evolving and massive in nature, we define a n...
The dynamic tree problem is that of maintaining an arbitrary n-vertex for-est that changes over time...
Dynamic treemaps are one of the methods of choice for displaying large hierarchies that change over ...
When dealing with a graph, any visualization strategy must rely on a layout procedure at least to in...
The visualization of networks as graphs composed of nodes and vertices benefits many fields of scien...
In streamed graph drawing, a planar graph, G, is given incrementally as a data stream and a straight...
How do real graphs evolve over time? What are ``normal'' growth patterns in social, technological, a...
Tree Drawings have been used extensively in software engineering and many other business and compute...
We consider temporally evolving trees with changing topology and data: tree nodes may persist for a ...
Computing treemap layouts for time-dependent (dynamic) trees is an open problem in information visua...
We introduce an interactive graph visualization scheme that allows users to explore graphs by viewin...
Our goal is to visualize an additional data dimension of a tree with multifaceted data through super...
Paper presented at the Proceedings of IEEE Symposium on Information Visualization, 2003, Seattle, Wa...
While the algorithmic drawing of static trees is well-understood and well-supported by software tool...
The study of evolution of networks has received increased interest with the recent discovery that ma...
Motivated by applications that concern graphs that are evolving and massive in nature, we define a n...
The dynamic tree problem is that of maintaining an arbitrary n-vertex for-est that changes over time...
Dynamic treemaps are one of the methods of choice for displaying large hierarchies that change over ...
When dealing with a graph, any visualization strategy must rely on a layout procedure at least to in...
The visualization of networks as graphs composed of nodes and vertices benefits many fields of scien...
In streamed graph drawing, a planar graph, G, is given incrementally as a data stream and a straight...
How do real graphs evolve over time? What are ``normal'' growth patterns in social, technological, a...