Add to ORKGReal-world networks often exhibit complex temporal patterns that affect their dynamics and function. In this chapter, we focus on the mathematical modelling of diffusion on temporal networks, and on its connection with continuous-time random walks. In that case, it is important to distinguish active walkers, whose motion triggers the activity of the network, from passive walkers, whose motion is restricted by the activity of the network. One can then develop renewal processes for the dynamics of the walker and for the dynamics of the network respectively, and identify how the shape of the temporal distribution affects spreading. As we show, the system exhibits non-Markovian features when the renewal process departs from a Poisson process, a...
Abstract. Spreading on networks is influenced by a number of factors including different parts of th...
Abstract We study diffusion on a multiplex network where the contact dynamics between the nodes is g...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...
14 pages, 13 figuresMany natural and artificial networks evolve in time. Nodes and connections appea...
International audienceThe interest in non-Markovian dynamics within the complex systems community ha...
Network science investigates the architecture of complex systems to understand their functional and ...
www.sg.ethz.ch We study the slow-down and speed-up of diffusion in temporal networks with non-Markov...
We consider the problem of diffusion on temporal networks, where the dynamics of each edge is modell...
Abstract In the study of dynamical processes on networks, there has been intense focus on network st...
We consider the problem of diffusion on temporal networks, where the dynamics of each edge is modell...
Networks in almost any domain are dynamical entities. New nodes join the system, others leave it, an...
The random walk process underlies the description of a large number of real-world phenomena. Here we...
We consider random walks on dynamical networks where edges appear and disappear during finite time i...
Abstract A heterogeneous continuous time random walk is an analytical formalism for studying and mod...
Abstract. Spreading on networks is influenced by a number of factors including different parts of th...
Abstract We study diffusion on a multiplex network where the contact dynamics between the nodes is g...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...
14 pages, 13 figuresMany natural and artificial networks evolve in time. Nodes and connections appea...
International audienceThe interest in non-Markovian dynamics within the complex systems community ha...
Network science investigates the architecture of complex systems to understand their functional and ...
www.sg.ethz.ch We study the slow-down and speed-up of diffusion in temporal networks with non-Markov...
We consider the problem of diffusion on temporal networks, where the dynamics of each edge is modell...
Abstract In the study of dynamical processes on networks, there has been intense focus on network st...
We consider the problem of diffusion on temporal networks, where the dynamics of each edge is modell...
Networks in almost any domain are dynamical entities. New nodes join the system, others leave it, an...
The random walk process underlies the description of a large number of real-world phenomena. Here we...
We consider random walks on dynamical networks where edges appear and disappear during finite time i...
Abstract A heterogeneous continuous time random walk is an analytical formalism for studying and mod...
Abstract. Spreading on networks is influenced by a number of factors including different parts of th...
Abstract We study diffusion on a multiplex network where the contact dynamics between the nodes is g...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...