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Universal behavior of cascading failures in interdependent networks.

Dongli DuanChangchun LvShubin SiZhen WangDaqing LiJianxi GaoShlomo HavlinHarry Eugene StanleyStefano Boccaletti
Published in: Proceedings of the National Academy of Sciences of the United States of America (2019)
Catastrophic and major disasters in real-world systems, such as blackouts in power grids or global failures in critical infrastructures, are often triggered by minor events which originate a cascading failure in interdependent graphs. We present here a self-consistent theory enabling the systematic analysis of cascading failures in such networks and encompassing a broad range of dynamical systems, from epidemic spreading, to birth-death processes, to biochemical and regulatory dynamics. We offer testable predictions on breakdown scenarios, and, in particular, we unveil the conditions under which the percolation transition is of the first-order or the second-order type, as well as prove that accounting for dynamics in the nodes always accelerates the cascading process. Besides applying directly to relevant real-world situations, our results give practical hints on how to engineer more robust networked systems.
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