We introduce Network Automata, a framework which couples the topological evolution of a network to its structure. To demonstrate its implementation we describe a simple model which exhibits behavior similar to the "Game of Life" before recasting some simple, well-known network models as Network Automata. We then introduce Functional Network Automata which are useful for dealing with networks in which the topology evolves according to some specified microscopic rules and, simultaneously, there is a dynamic process taking place on the network that both depends on its structure but is also capable of modifying it. It is a generic framework for modeling systems in which network structure, dynamics, and function are interrelated. At the practica...
In this dissertation, we present a study of complex systems with underlying network topology. Comple...
The work presented in this thesis concerns different aspects of dynamical processes on networks. The...
While the evolution of biological networks can be modeled sensefully as a series of mutation and sel...
We introduce Network Automata, a framework which couples the topological evolution of a network to i...
We introduce the Functional Dynamic Network framework for dealing with networks in which the topolog...
Networks have become a general concept to model the structure of arbitrary relationships among entit...
We consider networks of dynamical units that evolve in time according to different laws, and are cou...
Automata networks model all finite discrete dynamics. Each automaton has a state, evolving in discre...
In self-organizing networks, structure and dynamics interact in a unique way. Local activity sustain...
The interplay between topology and dynamics in complex networks is a fundamental but widely unexplor...
In self-organizing networks, structure and dynamics interact in a unique way. Local activity sustain...
Adaptive networks are systems where a network structure evolves in interaction with, and depending o...
The interplay between topology and dynamics in complex networks is a fundamental but widely unexplor...
Modularity structures are common in various social and biological networks. However, its dynamical o...
We show that abrupt structural transitions can arise in functionally optimal networks, driven by sma...
In this dissertation, we present a study of complex systems with underlying network topology. Comple...
The work presented in this thesis concerns different aspects of dynamical processes on networks. The...
While the evolution of biological networks can be modeled sensefully as a series of mutation and sel...
We introduce Network Automata, a framework which couples the topological evolution of a network to i...
We introduce the Functional Dynamic Network framework for dealing with networks in which the topolog...
Networks have become a general concept to model the structure of arbitrary relationships among entit...
We consider networks of dynamical units that evolve in time according to different laws, and are cou...
Automata networks model all finite discrete dynamics. Each automaton has a state, evolving in discre...
In self-organizing networks, structure and dynamics interact in a unique way. Local activity sustain...
The interplay between topology and dynamics in complex networks is a fundamental but widely unexplor...
In self-organizing networks, structure and dynamics interact in a unique way. Local activity sustain...
Adaptive networks are systems where a network structure evolves in interaction with, and depending o...
The interplay between topology and dynamics in complex networks is a fundamental but widely unexplor...
Modularity structures are common in various social and biological networks. However, its dynamical o...
We show that abrupt structural transitions can arise in functionally optimal networks, driven by sma...
In this dissertation, we present a study of complex systems with underlying network topology. Comple...
The work presented in this thesis concerns different aspects of dynamical processes on networks. The...
While the evolution of biological networks can be modeled sensefully as a series of mutation and sel...