AI Article Synopsis
- The concept of robustness in networks refers to their ability to maintain function despite disruptions, with this study focusing on how networks evolve from healthy to diseased nodes via site invasion rather than node removal.
- The research examines the robustness of the US high-voltage power grid, the Internet2 academic network, and the C. elegans connectome, comparing these to both modular and non-modular benchmark networks, as well as random networks with similar degree distributions.
- Findings reveal that for large networks, robustness is less correlated with conventional metrics and more influenced by degree distribution, while community detection methods struggle to identify complex hierarchical structures in these networks.
Article Abstract
For a network, the accomplishment of its functions despite perturbations is called robustness. Although this property has been extensively studied, in most cases, the network is modified by removing nodes. In our approach, it is no longer perturbed by site percolation, but evolves after site invasion. The process transforming resident/healthy nodes into invader/mutant/diseased nodes is described by the Moran model. We explore the sources of robustness (or its counterpart, the propensity to spread favourable innovations) of the US high-voltage power grid network, the Internet2 academic network, and the C. elegans connectome. We compare them to three modular and non-modular benchmark networks, and samples of one thousand random networks with the same degree distribution. It is found that, contrary to what happens with networks of small order, fixation probability and robustness are poorly correlated with most of standard statistics, but they depend strongly on the degree distribution. While community detection techniques are able to detect the existence of a central core in Internet2, they are not effective in detecting hierarchical structures whose topological complexity arises from the repetition of a few rules. Box counting dimension and Rent's rule are applied to show a subtle trade-off between topological and wiring complexity.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4748249 | PMC |
| http://dx.doi.org/10.1038/srep20666 | DOI Listing |
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