References
- 1. Barthélemy, M., et al. Velocity and Hierarchical Spread of Epidemic Outbreaks in Scale-Free Networks. – Physical Review Letters, Vol. 92, 2004, No 17, 178-701.10.1103/PhysRevLett.92.17870115169200
- 2. Barthelemy, M., et al. Dynamical Patterns of Epidemic Outbreaks in Complex Heterogeneous Networks. – Journal of Theoretical Biology, Vol. 235, 2005, No 2, 275-288.10.1016/j.jtbi.2005.01.01115862595
- 3. Zhou, T., et al. Behaviors of Susceptible-Infected Epidemics on Scale-Free Networks with Identical Infectivity. – Physical Review E, Vol. 74, 2006, No 5, 56-109.10.1103/PhysRevE.74.05610917279970
- 4. Pastor-Satorras, R., A. Vespignani. Epidemic Spreading in Scale-Free Networks. – Physical Review Letters, Vol. 86, 2001, No 14, 3200-3203.10.1103/PhysRevLett.86.320011290142
- 5. Pastor-Satorras, R., A. Vespignani. Epidemic Dynamics and Endemic States in Complex Networks. – Physical Review E, Vol. 63, 2001, No 6, 66-117.10.1103/PhysRevE.63.06611711415183
- 6. Hethcote, H. W. The Mathematics of Infectious Diseases. – SIAM Review, Vol. 42, 2000, No 4, 599-653.10.1137/S0036144500371907
- 7. May, R. M., A. L. Lloyd. Infection Dynamics on Scale-Free Networks. – Physical Review E, Vol. 64, 2001, No 6, 66-112.10.1103/PhysRevE.64.06611211736241
- 8. Moreno, Y., R. Pastor-Satorras, A. Vespignani. Epidemic Outbreaks in Complex Heterogeneous Networks. – European Physical Journal B, Vol. 26, 2002, No 4, 521-529.10.1140/epjb/e20020122
- 9. Bailey, N. T. J. The Mathematical Theory of Infectious Diseases and its Applications. New York, Hafner Press, 1975.
- 10. Anderson, R. M., R. M. May, B. Anderson. Infectious Diseases of Humans: Dynamics and Control. Oxford, Oxford University Press, 1992.
- 11. Pastor-Satorras, R., A. Vespignani. Immunization of Complex Networks. – Physical Review E, Vol. 65, 2002, No 3, 36-104.10.1103/PhysRevE.65.03610411909162
- 12. Cohen, R., S. Havl in, D. Ben-Avraham. Efficient Immunization Strategies for Computer Networks and Populations. – Physical Review Letters, Vol. 91, 2003, No 24, 247-901.10.1103/PhysRevLett.91.24790114683159
- 13. Zhang, H. F., et al. An Efficient Control Strategy of Epidemic Spreading on Scale-Free Networks. – Chinese Physics Letters, Vol. 26, 2009, No 6, 68-901.10.1088/0256-307X/26/6/068901
- 14. Meloni, S., A. Arenas, Y. M o r e n o. Traffic-Driven Epidemic Spreading in Finite-Size Scale-Free Networks. – PNAS, Vol. 106, 2009, No 40, 16897-16902.10.1073/pnas.0907121106276131219805184
- 15. Yang, H. X., W. X. Wang, Y. C. Lai. Traffic-Driven Epidemic Outbreak on Complex Networks: How Long Does it Take? – CHAOS, Vol. 22, 2012, No 4.10.1063/1.4772967711247923278081
- 16. Yang, H. X., et al. Traffic-Driven Epidemic Spreading on Networks of Mobile Agents. – Europhysics Letters, Vol. 98, 2012, No 6.10.1209/0295-5075/98/68003
- 17. New man, M. E. J. Scientific Collaboration Networks. II. Shortest Paths, Weighted Networks, and Centrality. – Physical Review E, Vol. 64, 2001, No 1, 16-132.10.1103/PhysRevE.64.01613211461356
- 18. Barrat, A., et al. The Architecture of Complex Weighted Networks. – PNAS, Vol. 101, 2004, No 11, 3747-3752.10.1073/pnas.040008710137431515007165
- 19. Pastor-Satorras, R., A. Vespignani. Evolution and Structure of the Internet: A Statistical Physics Approach. Cambridge, Cambridge University Press, 2007.
- 20. Barrat, A., M. Barthélemy, A. Vespignani. Modeling the Evolution of Weighted Networks. – Physical Review E, Vol. 70, 2004, No 6, 66-149.10.1103/PhysRevE.70.06614915697476
- 21. Brandes, U. A Faster Algorithm for Betweenness Centrality. – Journal of Mathematical Sociology, Vol. 25, 2001, No 2, 163-177.10.1080/0022250X.2001.9990249