The traditional way of studying temporal networks is to aggregate the dynamics of the edges to create a static weighted network. This implicitly assumes that the edges are governed by Poisson processes, which is not typically the case in empirical temporal networks. Accordingly, we examine the effects of non-Poisson inter-event statistics on the dynamics of edges, and we apply the concept of a generalized master equation to the study of continuous-time random walks on networks. We show that this equation reduces to the standard rate equations when the underlying process is Poissonian and that its stationary solution is determined by an effective transition matrix whose leading eigenvector is easy to calculate. We conduct numerical simulatio...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
Waiting times between two consecutive infection and recovery events in spreading processes are often...
www.sg.ethz.ch We study the slow-down and speed-up of diffusion in temporal networks with non-Markov...
Abstract In the study of dynamical processes on networks, there has been intense focus on network st...
We consider random walks on dynamical networks where edges appear and disappear during finite time i...
International audienceThe interest in non-Markovian dynamics within the complex systems community ha...
Real-world networks often exhibit complex temporal patterns that affect their dynamics and function....
We study individual agents with identical linear dynamics interconnected in a network, and in partic...
77 pagesIn this paper we study the Poisson Hypothesis, which is a device to analyze approximately th...
70 pagesIn this paper we prove the Poisson Hypothesis for the limiting behavior of the large queuein...
Recent theoretical work on the modeling of network structure has focused primarily on networks that ...
In many real-world networks, the rates of node and link addition are time dependent. This observatio...
Network science investigates the architecture of complex systems to understand their functional and ...
A general formalism is introduced to allow the steady state of non-Markovian processes on networks t...
We present examples of queuing networks that never come to equilibrium. That is achieved by construc...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
Waiting times between two consecutive infection and recovery events in spreading processes are often...
www.sg.ethz.ch We study the slow-down and speed-up of diffusion in temporal networks with non-Markov...
Abstract In the study of dynamical processes on networks, there has been intense focus on network st...
We consider random walks on dynamical networks where edges appear and disappear during finite time i...
International audienceThe interest in non-Markovian dynamics within the complex systems community ha...
Real-world networks often exhibit complex temporal patterns that affect their dynamics and function....
We study individual agents with identical linear dynamics interconnected in a network, and in partic...
77 pagesIn this paper we study the Poisson Hypothesis, which is a device to analyze approximately th...
70 pagesIn this paper we prove the Poisson Hypothesis for the limiting behavior of the large queuein...
Recent theoretical work on the modeling of network structure has focused primarily on networks that ...
In many real-world networks, the rates of node and link addition are time dependent. This observatio...
Network science investigates the architecture of complex systems to understand their functional and ...
A general formalism is introduced to allow the steady state of non-Markovian processes on networks t...
We present examples of queuing networks that never come to equilibrium. That is achieved by construc...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
Waiting times between two consecutive infection and recovery events in spreading processes are often...
www.sg.ethz.ch We study the slow-down and speed-up of diffusion in temporal networks with non-Markov...