International audienceStochastic simulations are one of the cornerstones of the analysis of dynamical processes on complex networks, and are often the only accessible way to explore their behavior. The development of fast algorithms is paramount to allow large-scale simulations. The Gillespie algorithm can be used for fast simulation of stochastic processes, and variants of it have been applied to simulate dynamical processes on static networks. However, its adaptation to temporal networks remains non-trivial. We here present a temporal Gillespie algorithm that solves this problem. Our method is applicable to general Poisson (constant-rate) processes on temporal networks, stochastically exact, and up to multiple orders of magnitude faster t...
Non-Poissonian bursty processes are ubiquitous in natural and social phenomena, yet little is known ...
Current approaches for modeling propagation in networks (e.g., of diseases, computer viruses, rumors...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
Stochastic simulations are one of the cornerstones of the analysis of dynamical processes on complex...
The Gillespie algorithm provides statistically exact methods for simulating stochastic dynamics mode...
The Gillespie algorithm provides statistically exact methods for simulating stochastic dynamics mode...
Many multiagent dynamics, including various collective dynamics occurring on networks, can be modele...
Modelling and simulating of pathogen spreading has been proven crucial to inform containment strateg...
Continuous-time Markov process models of contagions are widely studied, not least because of their u...
<p>Ratio Θ<sub>RS</sub>/Θ<sub>TGA</sub> between the time per realization of a single simulation of a...
Stochastic simulation algorithm with continuous and dis-continuous time-dependent reaction rates We ...
Calculation of expected outbreak size of a simple contagion on a known contact network is a common a...
The spreading process of diseases has been an important research topic for many years. It has profou...
<p>Ratio between computational times Θ<sub>RS</sub> and Θ<sub>TGA</sub> per single realization of a ...
Discrete stochastic processes are widespread in natural systems with many applications across physic...
Non-Poissonian bursty processes are ubiquitous in natural and social phenomena, yet little is known ...
Current approaches for modeling propagation in networks (e.g., of diseases, computer viruses, rumors...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
Stochastic simulations are one of the cornerstones of the analysis of dynamical processes on complex...
The Gillespie algorithm provides statistically exact methods for simulating stochastic dynamics mode...
The Gillespie algorithm provides statistically exact methods for simulating stochastic dynamics mode...
Many multiagent dynamics, including various collective dynamics occurring on networks, can be modele...
Modelling and simulating of pathogen spreading has been proven crucial to inform containment strateg...
Continuous-time Markov process models of contagions are widely studied, not least because of their u...
<p>Ratio Θ<sub>RS</sub>/Θ<sub>TGA</sub> between the time per realization of a single simulation of a...
Stochastic simulation algorithm with continuous and dis-continuous time-dependent reaction rates We ...
Calculation of expected outbreak size of a simple contagion on a known contact network is a common a...
The spreading process of diseases has been an important research topic for many years. It has profou...
<p>Ratio between computational times Θ<sub>RS</sub> and Θ<sub>TGA</sub> per single realization of a ...
Discrete stochastic processes are widespread in natural systems with many applications across physic...
Non-Poissonian bursty processes are ubiquitous in natural and social phenomena, yet little is known ...
Current approaches for modeling propagation in networks (e.g., of diseases, computer viruses, rumors...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...