We study the evolution of networks through ‘triplets’ — three-node graphlets. We develop a method to compute a transition matrix to describe the evolution of triplets in temporal networks. To identify the importance of higher-order interactions in the evolution of networks, we compare both artificial and real-world data to a model based on pairwise interactions only. The significant differences between the computed matrix and the calculated matrix from the fitted parameters demonstrate that non-pairwise interactions exist for various real-world systems in space and time, such as our data sets. Furthermore, this also reveals that different patterns of higher-order interaction are involved in different real-world situations. To test our appro...
Percolation establishes the connectivity of complex networks and is one of the most fundamental crit...
Networks are frequently used to model complex systems comprised of interacting elements. While links...
Understanding the evolutionary mechanisms of dynamic graphs is crucial since dynamic is a basic char...
Abstract We study the evolution of networks through ‘triplets’—three-node graphlets. We develop a me...
Network science studies interactions between different entities. This thesis covers three different ...
Human social interactions are typically recorded as time-specific dyadic interactions, and represent...
We study the temporal co-variation of network co-evolution via the cross-link structure of networks,...
The complexity of many biological, social and technological systems stems from the richness of the ...
Network representations of complex systems are limited to pairwise interactions, but real-world syst...
We propose a new method for characterizing the dynamics of complex networks with its application to ...
Social networks created based on data gathered in various computer systems are structures that const...
In many complex systems, elements interact via time-varying network topologies.Recent research shows...
Multi-layered networks represent a major advance in the description of natural complex systems, and ...
Given a set of temporal networks, from different domains and with different sizes, how can we compar...
Link prediction is an emerging field that predicts if two nodes in a network are likely to be connec...
Percolation establishes the connectivity of complex networks and is one of the most fundamental crit...
Networks are frequently used to model complex systems comprised of interacting elements. While links...
Understanding the evolutionary mechanisms of dynamic graphs is crucial since dynamic is a basic char...
Abstract We study the evolution of networks through ‘triplets’—three-node graphlets. We develop a me...
Network science studies interactions between different entities. This thesis covers three different ...
Human social interactions are typically recorded as time-specific dyadic interactions, and represent...
We study the temporal co-variation of network co-evolution via the cross-link structure of networks,...
The complexity of many biological, social and technological systems stems from the richness of the ...
Network representations of complex systems are limited to pairwise interactions, but real-world syst...
We propose a new method for characterizing the dynamics of complex networks with its application to ...
Social networks created based on data gathered in various computer systems are structures that const...
In many complex systems, elements interact via time-varying network topologies.Recent research shows...
Multi-layered networks represent a major advance in the description of natural complex systems, and ...
Given a set of temporal networks, from different domains and with different sizes, how can we compar...
Link prediction is an emerging field that predicts if two nodes in a network are likely to be connec...
Percolation establishes the connectivity of complex networks and is one of the most fundamental crit...
Networks are frequently used to model complex systems comprised of interacting elements. While links...
Understanding the evolutionary mechanisms of dynamic graphs is crucial since dynamic is a basic char...