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Explicit size distributions of failure cascades redefine systemic risk on finite networks. (arXiv:1802.03286v1 [physics.soc-ph])
来源于:arXiv
How big is the risk that a few initial failures of nodes in a network amplify
to large cascades that span a substantial share of all nodes? Predicting the
final cascade size is critical to ensure the functioning of a system as a
whole. Yet, this task is hampered by uncertain or changing parameters and
missing information. In infinitely large networks, the average cascade size can
often be well estimated by established approaches building on local tree
approximations and mean field approximations. Yet, as we demonstrate, in finite
networks, this average does not even need to be a likely outcome. Instead, we
find broad and even bimodal cascade size distributions. This phenomenon
persists for system sizes up to $10^{7}$ and different cascade models, i.e. it
is relevant for most real systems. To show this, we derive explicit closed-form
solutions for the full probability distribution of the final cascade size. We
focus on two topological limit cases, the complete network representing a den 查看全文>>