Mean field theory models of percolation on networks provide analytic estimates of network robustness under node or edge removal. We introduce a new mean field theory model based on generating functions that includes information about the tree-likeness of each node's local neighbourhood. We show that our new model outperforms all other generating function models in prediction accuracy when testing their estimates on a wide range of real-world network data. We compare the new model's performance against the recently introduced message passing models and provide evidence that the standard version is also outperformed, while the `loopy' version is only outperformed on a targeted attack strategy. As we show, however, the computational complexity...
Understanding the network structure connecting a group of entities is of interest in applications su...
Percolation models shed a light on network integrity and functionality and have numerous application...
Complex networks are everywhere, such as the power grid network, the airline network, the protein-pr...
Mean field theory models of percolation on networks provide analytic estimates of network robustness...
peer-reviewedMean-field analysis is an important tool for understanding dynamics on complex networks...
For a network, the accomplishment of its functions despite perturbations is called robustness. Altho...
Percolation theory provides a quantitative framework to estimate and enhance robustness of complex n...
Recently increasing attention has been addressed to the fluctuations observed in percolation defined...
Clustering is the propensity of nodes that share a common neighbour to be connected. It is ubiquitou...
Despite the prevalence of community detection algorithms, relatively less work has been done on unde...
Percolation is an emblematic model to assess the robustness of interconnected systems when some of t...
Bootstrap percolation in (random) graphs is a contagion dynamics among a set of vertices with certai...
We reveal large fluctuations in the response of real multiplex networks to random damage of nodes. T...
In this paper, we explore the relationship between the topological characteristics of a complex netw...
We perform a systematic analysis of the quality of fit of the stochastic block model (SBM) for 275 e...
Understanding the network structure connecting a group of entities is of interest in applications su...
Percolation models shed a light on network integrity and functionality and have numerous application...
Complex networks are everywhere, such as the power grid network, the airline network, the protein-pr...
Mean field theory models of percolation on networks provide analytic estimates of network robustness...
peer-reviewedMean-field analysis is an important tool for understanding dynamics on complex networks...
For a network, the accomplishment of its functions despite perturbations is called robustness. Altho...
Percolation theory provides a quantitative framework to estimate and enhance robustness of complex n...
Recently increasing attention has been addressed to the fluctuations observed in percolation defined...
Clustering is the propensity of nodes that share a common neighbour to be connected. It is ubiquitou...
Despite the prevalence of community detection algorithms, relatively less work has been done on unde...
Percolation is an emblematic model to assess the robustness of interconnected systems when some of t...
Bootstrap percolation in (random) graphs is a contagion dynamics among a set of vertices with certai...
We reveal large fluctuations in the response of real multiplex networks to random damage of nodes. T...
In this paper, we explore the relationship between the topological characteristics of a complex netw...
We perform a systematic analysis of the quality of fit of the stochastic block model (SBM) for 275 e...
Understanding the network structure connecting a group of entities is of interest in applications su...
Percolation models shed a light on network integrity and functionality and have numerous application...
Complex networks are everywhere, such as the power grid network, the airline network, the protein-pr...