Corpus ID: 231632702

Bursty exposure on higher-order networks leads to nonlinear infection kernels

@inproceedings{StOnge2021BurstyEO,
  title={Bursty exposure on higher-order networks leads to nonlinear infection kernels},
  author={G. St-Onge and Hanlin Sun and A. Allard and Laurent H'ebert-Dufresne and G. Bianconi},
  year={2021}
}
Guillaume St-Onge,1, 2 Hanlin Sun,3 Antoine Allard,1, 2 Laurent Hébert-Dufresne,1, 4, 5 and Ginestra Bianconi3, 6 1Département de physique, de génie physique et d’optique, Université Laval, Québec (Québec), Canada G1V 0A6 2Centre interdisciplinaire en modélisation mathématique, Université Laval, Québec (Québec), Canada G1V 0A6 3School of Mathematical Sciences, Queen Mary University of London, London, E1 4NS, United Kingdom 4Vermont Complex Systems Center, University of Vermont, Burlington, VT… Expand
1 Citations

Figures from this paper

References

SHOWING 1-10 OF 45 REFERENCES
Social contagion models on hypergraphs
  • 22
  • PDF
The effect of heterogeneity on hypergraph contagion models
  • 7
  • PDF
Dynamics of cascades on burstiness-controlled temporal networks
  • 2
  • PDF
Propagation dynamics on networks featuring complex topologies.
  • 41
  • PDF
Simplicial SIS model in scale-free uniform hypergraph
  • 13
  • PDF
Universal behavior in a generalized model of contagion.
  • 409
  • PDF
Simplicial models of social contagion
  • 92
  • PDF
Endemic Models with Arbitrarily Distributed Periods of Infection I: Fundamental Properties of the Model
  • 98
  • PDF
...
1
2
3
4
5
...