In this note we describe the theory of functional asynchronous networks and one of the main results, the Modularization of Dynamics Theorem, which for a large class of functional asynchronous networks gives a factorization of dynamics in terms of constituent subnetworks. For these networks we can give a complete description of the network function in terms of the function of the events comprising the network and thereby answer a question originally raised by Alon in the context of biological networks
Biological networks are currently being studied with approaches derived from the mathematical and ph...
When using methods from network science to study real-world complex systems, one is faced with the c...
Modularity structures are common in various social and biological networks. However, its dynamical o...
In this note we describe the theory of functional asynchronous networks and one of the main results,...
In this note we describe the theory of functional asynchronous networks and one of the main results,...
Building on the first part of this paper, we develop the theory of functional asynchronous networks....
Abstract. Real-world networks in technology, engineering and biology often exhibit dynamics that can...
Real-world networks in technology, engineering and biology often exhibit dynamics that cannot be ade...
International audienceThis paper investigates questions related to modularity in biological interact...
Abstract. This paper investigates questions related to modularity in biological interaction networks...
The relationship between network structure and dynamics is one of the most extensively investigated ...
We introduce the Functional Dynamic Network framework for dealing with networks in which the topolog...
Abstract Many natural and man-made complex dynamical systems can be represented by networks with ver...
We introduce Network Automata, a framework which couples the topological evolution of a network to i...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
When using methods from network science to study real-world complex systems, one is faced with the c...
Modularity structures are common in various social and biological networks. However, its dynamical o...
In this note we describe the theory of functional asynchronous networks and one of the main results,...
In this note we describe the theory of functional asynchronous networks and one of the main results,...
Building on the first part of this paper, we develop the theory of functional asynchronous networks....
Abstract. Real-world networks in technology, engineering and biology often exhibit dynamics that can...
Real-world networks in technology, engineering and biology often exhibit dynamics that cannot be ade...
International audienceThis paper investigates questions related to modularity in biological interact...
Abstract. This paper investigates questions related to modularity in biological interaction networks...
The relationship between network structure and dynamics is one of the most extensively investigated ...
We introduce the Functional Dynamic Network framework for dealing with networks in which the topolog...
Abstract Many natural and man-made complex dynamical systems can be represented by networks with ver...
We introduce Network Automata, a framework which couples the topological evolution of a network to i...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
When using methods from network science to study real-world complex systems, one is faced with the c...
Modularity structures are common in various social and biological networks. However, its dynamical o...