In many types of network, the relationship between structure and function is of great significance. We are particularly interested in community structures, which arise in a wide variety of domains. We apply a simple oscillator model to networks with community structures and show that waves of regular oscillation are caused by synchronised clusters of nodes. Moreover, we show that such global oscillations may arise as a direct result of network topology. We also observe that additional modes of oscillation (as detected through frequency analysis) occur in networks with additional levels of topological hierarchy and that such modes may be directly related to network structure. We apply the method in two specific domains (metabolic networks an...
We present an extended analysis, based on the dynamics towards synchronization of a system of couple...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
In a time when large amounts of data about social, economical, technological, and biological systems...
In many types of network, the relationship between structure and function is of great significance. ...
In many types of network, the relationship between structure and function is of great significance. ...
In many types of network, the relationship between structure and function is of great significance....
Network theory has proven a powerful and general framework for studying the effects of complex inter...
We consider relations of structure and dynamics in complex networks. Firstly, a dynamical perspectiv...
International audienceThe concept of network is ubiquitous to various disciplines and includes diffe...
Across physics, biology, and engineering, the collective dynamics of oscillatory networks often evol...
[EN]This work analyzes the problem of community structure in real-world networks based on the synchr...
Abstract Many natural and man-made complex dynamical systems can be represented by networks with ver...
Modularity structures are common in various social and biological networks. However, its dynamical o...
In recent years, an abundance of studies in complex systems research have focused on deciphering the...
We introduce an efficient method for the detection and identification of community structures in com...
We present an extended analysis, based on the dynamics towards synchronization of a system of couple...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
In a time when large amounts of data about social, economical, technological, and biological systems...
In many types of network, the relationship between structure and function is of great significance. ...
In many types of network, the relationship between structure and function is of great significance. ...
In many types of network, the relationship between structure and function is of great significance....
Network theory has proven a powerful and general framework for studying the effects of complex inter...
We consider relations of structure and dynamics in complex networks. Firstly, a dynamical perspectiv...
International audienceThe concept of network is ubiquitous to various disciplines and includes diffe...
Across physics, biology, and engineering, the collective dynamics of oscillatory networks often evol...
[EN]This work analyzes the problem of community structure in real-world networks based on the synchr...
Abstract Many natural and man-made complex dynamical systems can be represented by networks with ver...
Modularity structures are common in various social and biological networks. However, its dynamical o...
In recent years, an abundance of studies in complex systems research have focused on deciphering the...
We introduce an efficient method for the detection and identification of community structures in com...
We present an extended analysis, based on the dynamics towards synchronization of a system of couple...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
In a time when large amounts of data about social, economical, technological, and biological systems...