A simple model to study cooperation is the two-species symbiotic contact process (2SCP), in which two different species spread on a graph and interact by a reduced death rate if both occupy the same vertex, representing a symbiotic interaction. The 2SCP is known to exhibit a complex behavior with a rich phase diagram, including continuous and discontinuous transitions between the active phase and extinction. In this work, we advance the understanding of the phase transition of the 2SCP on uncorrelated networks by developing a heterogeneous mean-field (HMF) theory, in which the heterogeneity of contacts is explicitly reckoned. The HMF theory for networks with power-law degree distributions shows that the region of bistability (active and ina...
Although the cooperative dynamics emerging from a network of interacting players has been exhaustive...
We study the phase diagram and critical behavior of an interacting one-dimensional two-species monom...
We propose a simple model for a binary decision making process on a graph, motivated by modeling soc...
Abstract. It is known from past research that the limiting behavior of the contact process strongly ...
Dynamical reaction–diffusion processes and metapopulation models are standard modelling approaches f...
We investigate the properties of the threshold contact process (TCP), a process showing an absorbing...
Many complex dynamical systems in the real world, including ecological, climate, financial, and powe...
Many science phenomena are modelled as interacting particle systems (IPS) coupled on static networks...
We study the spreading of two mutually cooperative diseases on different network topologies, and wit...
Employing the Kuramoto model as an illustrative example, we show how the use of the mean-field appro...
Understanding the spread of diseases through complex networks is of great interest where realistic, ...
Recently there has been an increasing interest in studying dynamical processes on networks exhibitin...
Reaction-diffusion processes can be adopted to model a large number of dynamics on complex networks,...
We investigate the effects of local population structure in reaction-diffusion processes representin...
Models of coupled oscillator networks play an important role in describing collective synchronizatio...
Although the cooperative dynamics emerging from a network of interacting players has been exhaustive...
We study the phase diagram and critical behavior of an interacting one-dimensional two-species monom...
We propose a simple model for a binary decision making process on a graph, motivated by modeling soc...
Abstract. It is known from past research that the limiting behavior of the contact process strongly ...
Dynamical reaction–diffusion processes and metapopulation models are standard modelling approaches f...
We investigate the properties of the threshold contact process (TCP), a process showing an absorbing...
Many complex dynamical systems in the real world, including ecological, climate, financial, and powe...
Many science phenomena are modelled as interacting particle systems (IPS) coupled on static networks...
We study the spreading of two mutually cooperative diseases on different network topologies, and wit...
Employing the Kuramoto model as an illustrative example, we show how the use of the mean-field appro...
Understanding the spread of diseases through complex networks is of great interest where realistic, ...
Recently there has been an increasing interest in studying dynamical processes on networks exhibitin...
Reaction-diffusion processes can be adopted to model a large number of dynamics on complex networks,...
We investigate the effects of local population structure in reaction-diffusion processes representin...
Models of coupled oscillator networks play an important role in describing collective synchronizatio...
Although the cooperative dynamics emerging from a network of interacting players has been exhaustive...
We study the phase diagram and critical behavior of an interacting one-dimensional two-species monom...
We propose a simple model for a binary decision making process on a graph, motivated by modeling soc...