Networks are frequently used to model complex systems comprised of interacting elements. While links capture the topology of direct interactions, the true complexity of many systems originates from higher-order patterns in paths by which nodes can indirectly influence each other. Path data, representing ordered sequences of consecutive direct interactions, can be used to model these patterns. However, to avoid overfitting, such models should only consider those higher-order patterns for which the data provide sufficient statistical evidence. On the other hand, we hypothesise that network models, which capture only direct interactions, underfit higher-order patterns present in data. Consequently, both approaches are likely to misidentify inf...
We study the evolution of networks through ‘triplets’ — three-node graphlets. We develop a method to...
We consider the problem of inferring the structure of a network from co-occurrence data: observation...
Complex systems play an essential role in our daily lives. These systems consist of many connected c...
To better understand the structure and function of complex systems, researchers often represent dire...
Network science studies interactions between different entities. This thesis covers three different ...
Despite recent advances in the study of temporal networks, the analysis of time-stamped ne...
We propose a novel sequence prediction method for sequential data capturing node traversals in graph...
Graph or network representations are an important foundation for data mining and machine learning ta...
Graph and network models are essential for data science applications in computer science, social sci...
In many complex systems, elements interact via time-varying network topologies.Recent research shows...
Graph or network representations are an important foundation for data mining and machine learning ta...
Rich data are revealing that complex dependencies between the nodes of a network may not be captured...
Human social interactions are typically recorded as time-specific dyadic interactions, and represent...
Many complex systems exhibit a natural hierarchy in which elements can be ranked according to a noti...
Identifying the most influential nodes in networked systems is of vital importance to optimize their...
We study the evolution of networks through ‘triplets’ — three-node graphlets. We develop a method to...
We consider the problem of inferring the structure of a network from co-occurrence data: observation...
Complex systems play an essential role in our daily lives. These systems consist of many connected c...
To better understand the structure and function of complex systems, researchers often represent dire...
Network science studies interactions between different entities. This thesis covers three different ...
Despite recent advances in the study of temporal networks, the analysis of time-stamped ne...
We propose a novel sequence prediction method for sequential data capturing node traversals in graph...
Graph or network representations are an important foundation for data mining and machine learning ta...
Graph and network models are essential for data science applications in computer science, social sci...
In many complex systems, elements interact via time-varying network topologies.Recent research shows...
Graph or network representations are an important foundation for data mining and machine learning ta...
Rich data are revealing that complex dependencies between the nodes of a network may not be captured...
Human social interactions are typically recorded as time-specific dyadic interactions, and represent...
Many complex systems exhibit a natural hierarchy in which elements can be ranked according to a noti...
Identifying the most influential nodes in networked systems is of vital importance to optimize their...
We study the evolution of networks through ‘triplets’ — three-node graphlets. We develop a method to...
We consider the problem of inferring the structure of a network from co-occurrence data: observation...
Complex systems play an essential role in our daily lives. These systems consist of many connected c...