To comprehend interconnected systems across the social and natural sciences, researchers have developed many powerful methods to identify functional modules. For example, with interaction data aggregated into a single network layer, flow-based methods have proven useful for identifying modular dynamics in weighted and directed networks that capture constraints on flow processes. However, many interconnected systems consist of agents or components that exhibit multiple layers of interactions, possibly from several different processes. Inevitably, representing this intricate network of networks as a single aggregated network leads to information loss and may obscure the actual organization. Here, we propose a method based on a compression of ...
We consider relations of structure and dynamics in complex networks. Firstly, a dynamical perspectiv...
A variety of complex systems exhibits different types of relationships simultaneously that can be mo...
In complex systems, the network of interactions we observe between systems components is the aggrega...
To comprehend interconnected systems across the social and natural sciences, researchers have develo...
To better understand the organization of overlapping modules in large networks with respect to flow,...
Comprehending complex systems by simplifying and highlighting important dynamical patterns requires ...
International audienceVarious biological networks can be constructed, each featuring gene/proteinrel...
A network representation is useful for describing the structure of a large variety of complex system...
Network science plays a central role in the study of complex systems, offering a range of computatio...
Many real-world networks are so large that we must simplify their structure before we can extract us...
Many complex systems can be represented as networks composed by distinct layers, interacting and dep...
Identifying communities or clusters in networked systems has received much attention across the phys...
Despite the success of traditional network analysis, standard networks provide a limited representat...
Mapping network flows provides insight into the organization of networks, but even though many real ...
Identifying communities or clusters in networked systems has received much attention across the phys...
We consider relations of structure and dynamics in complex networks. Firstly, a dynamical perspectiv...
A variety of complex systems exhibits different types of relationships simultaneously that can be mo...
In complex systems, the network of interactions we observe between systems components is the aggrega...
To comprehend interconnected systems across the social and natural sciences, researchers have develo...
To better understand the organization of overlapping modules in large networks with respect to flow,...
Comprehending complex systems by simplifying and highlighting important dynamical patterns requires ...
International audienceVarious biological networks can be constructed, each featuring gene/proteinrel...
A network representation is useful for describing the structure of a large variety of complex system...
Network science plays a central role in the study of complex systems, offering a range of computatio...
Many real-world networks are so large that we must simplify their structure before we can extract us...
Many complex systems can be represented as networks composed by distinct layers, interacting and dep...
Identifying communities or clusters in networked systems has received much attention across the phys...
Despite the success of traditional network analysis, standard networks provide a limited representat...
Mapping network flows provides insight into the organization of networks, but even though many real ...
Identifying communities or clusters in networked systems has received much attention across the phys...
We consider relations of structure and dynamics in complex networks. Firstly, a dynamical perspectiv...
A variety of complex systems exhibits different types of relationships simultaneously that can be mo...
In complex systems, the network of interactions we observe between systems components is the aggrega...