Message-Passing Methods for Complex Contagions

March 23, 2017 Β· Declared Dead Β· πŸ› arXiv.org

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Authors James P. Gleeson, Mason A. Porter arXiv ID 1703.08046 Category physics.soc-ph Cross-listed cs.SI, math.DS, math.PR, nlin.AO Citations 16 Venue arXiv.org Last Checked 3 months ago
Abstract
Message-passing methods provide a powerful approach for calculating the expected size of cascades either on random networks (e.g., drawn from a configuration-model ensemble or its generalizations) asymptotically as the number $N$ of nodes becomes infinite or on specific finite-size networks. We review the message-passing approach and show how to derive it for configuration-model networks using the methods of (Dhar et al., 1997) and (Gleeson, 2008). Using this approach, we explain for such networks how to determine an analytical expression for a "cascade condition", which determines whether a global cascade will occur. We extend this approach to the message-passing methods for specific finite-size networks (Shrestha and Moore, 2014; Lokhov et al., 2015), and we derive a generalized cascade condition. Throughout this chapter, we illustrate these ideas using the Watts threshold model.
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