Strategy for stopping failure cascades in interdependent networks

CRISTIAN E. LA ROCCA; LIDIA A BRAUNSTEIN; H. E STANLEY

PHYSICA A - STATISTICAL AND THEORETICAL PHYSICS

ELSEVIER SCIENCE BV

Lugar: Amsterdam; Año: 2018 vol. 508 p. 577 - 583

0378-4371

Interdependencies are ubiquitous throughout the world. Every real-world system interacts with and is dependent on other systems, and this interdependency affects their performance. In particular, interdependencies among networks make them vulnerable to failure cascades, the effects of which are often catastrophic. Failure propagation fragments network components, disconnects them, and may cause complete systemic failure. We propose a strategy of avoiding or at leastmitigating the complete destruction of a system of interdependent networks experiencing a failure cascade. Starting with a fraction 1 − p of failing nodes in one network, we reconnect with a prob-ability γ every isolated component to a functional giant component (GC), the largest connected cluster. We find that as γ increases the resilience of the system to cascading failure also increases.We also find that our strategy is more effective when it is applied in a network of low average degree. We solve the problem theoretically using percolation theory, and we find that the solutionagrees with simulation results.