Models of percolation processes on networks currently assume locally tree-like structures at low densities, and are derived exactly only in the thermodynamic limit. Finite size effects and the presence of short loops in real systems however cause a deviation between the empirical percolation threshold p_c and its model-predicted value q_c. Here we show the existence of an empirical linear relation between p_c and q_c across a large number of real and model networks. Such a putatively universal relation can then be used to correct the estimated value of q_c. We further show how to obtain a more precise relation using the concept of the complement graph, by investigating on the connection between the percolation threshold of a network and that of its complement.
Rapisardi, G., Caldarelli, G., Cimini, G. (2018). Numerical Assessment of the Percolation Threshold Using Complement Networks. In Complex Networks and Their Applications VII (pp. 820-827). Aiello L., Cherifi C., Cherifi H., Lambiotte R., Lió P., Rocha L. [10.1007/978-3-030-05411-3_65].
Numerical Assessment of the Percolation Threshold Using Complement Networks
Cimini, Giulio
2018-01-01
Abstract
Models of percolation processes on networks currently assume locally tree-like structures at low densities, and are derived exactly only in the thermodynamic limit. Finite size effects and the presence of short loops in real systems however cause a deviation between the empirical percolation threshold p_c and its model-predicted value q_c. Here we show the existence of an empirical linear relation between p_c and q_c across a large number of real and model networks. Such a putatively universal relation can then be used to correct the estimated value of q_c. We further show how to obtain a more precise relation using the concept of the complement graph, by investigating on the connection between the percolation threshold of a network and that of its complement.| File | Dimensione | Formato | |
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