Force-directed drawing algorithms are the most commonly used approach to visualize networks. While they are usually very robust, the performance of Euclidean spring embedders decreases if the graph exhibits the high level of heterogeneity that typically occurs in scale-free real-world networks. As heterogeneity naturally emerges from hyperbolic geometry (in fact, scale-free networks are often perceived to have an underlying hyperbolic geometry), it is natural to embed them into the hyperbolic plane instead. Previous techniques that produce hyperbolic embeddings usually make assumptions about the given network, which (if not met) impairs the quality of the embedding. It is still an open problem to adapt force-directed embedding algorithms to...
Due to its geometric properties, hyperbolic space can support high-fidelity embeddings of tree- and ...
Networks found in the real-world are numerous and varied. A common type of network is the heterogene...
We present a method by which force-directed algorithms for graph layouts can be generalized to calcu...
Force-directed drawing algorithms are the most commonly used approach to visualize networks. While t...
Network science is driven by the question which properties large real-world networks have and how we...
Hyperbolic geometry appears to be intrinsic in many large real networks. We construct and implement ...
We introduce Mercator, a reliable embedding method to map real complex networks into their hyperbo...
The arrangement of network nodes in hyperbolic spaces has become a widely studied problem, motivated...
This paper introduces the strain elevation tension spring embedding (SETSe) algorithm. SETSe is a no...
peer-reviewedWe show that the community structure of a network can be used as a coarse version of it...
Graph-structured data are widespread in real-world applications, such as social networks, recommende...
The arrangement of network nodes in hyperbolic spaces has become a widely studied problem, motivated...
Complex networks have become increasingly popular for modeling real-world phenomena, ranging from we...
We explore a novel method to generate and characterize complex networks by means of their embedding ...
Network embedding is a frontier topic in current network science. The scale-free property of complex...
Due to its geometric properties, hyperbolic space can support high-fidelity embeddings of tree- and ...
Networks found in the real-world are numerous and varied. A common type of network is the heterogene...
We present a method by which force-directed algorithms for graph layouts can be generalized to calcu...
Force-directed drawing algorithms are the most commonly used approach to visualize networks. While t...
Network science is driven by the question which properties large real-world networks have and how we...
Hyperbolic geometry appears to be intrinsic in many large real networks. We construct and implement ...
We introduce Mercator, a reliable embedding method to map real complex networks into their hyperbo...
The arrangement of network nodes in hyperbolic spaces has become a widely studied problem, motivated...
This paper introduces the strain elevation tension spring embedding (SETSe) algorithm. SETSe is a no...
peer-reviewedWe show that the community structure of a network can be used as a coarse version of it...
Graph-structured data are widespread in real-world applications, such as social networks, recommende...
The arrangement of network nodes in hyperbolic spaces has become a widely studied problem, motivated...
Complex networks have become increasingly popular for modeling real-world phenomena, ranging from we...
We explore a novel method to generate and characterize complex networks by means of their embedding ...
Network embedding is a frontier topic in current network science. The scale-free property of complex...
Due to its geometric properties, hyperbolic space can support high-fidelity embeddings of tree- and ...
Networks found in the real-world are numerous and varied. A common type of network is the heterogene...
We present a method by which force-directed algorithms for graph layouts can be generalized to calcu...