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Herrmann, Hans J.
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Rights / licenseCreative Commons Attribution 4.0 International
Failure, damage spread and recovery crucially underlie many spatially embedded networked systems ranging from transportation structures to the human body. Here we study the interplay between spontaneous damage, induced failure and recovery in both embedded and non-embedded networks. In our model the network’s components follow three realistic processes that capture these features: (i) spontaneous failure of a component independent of the neighborhood (internal failure), (ii) failure induced by failed neighboring nodes (external failure) and (iii) spontaneous recovery of a component. We identify a metastable domain in the global network phase diagram spanned by the model’s control parameters where dramatic hysteresis effects and random switching between two coexisting states are observed. This dynamics depends on the characteristic link length of the embedded system. For the Euclidean lattice in particular, hysteresis and switching only occur in an extremely narrow region of the parameter space compared to random networks. We develop a unifying theory which links the dynamics of our model to contact processes. Our unifying framework may help to better understand controllability in spatially embedded and random networks where spontaneous recovery of components can mitigate spontaneous failure and damage spread in dynamical networks Show more
Journal / seriesScientific Reports
Pages / Article No.
PublisherNature Publishing Group
SubjectApplied mathematics; Complex networks; Nonlinear phenomena; Phase transitions and critical phenomena; Statistical physics
Organisational unit03733 - Herrmann, Hans Jürgen (emeritus) / Herrmann, Hans Jürgen (emeritus)
319968 - Fluid Flow in Complex and Curved Spaces (EC)
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Is cited by: https://doi.org/10.3929/ethz-b-000270037
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