From Local to Global Symmetry: Activation Dynamics in the Independent Cascade Model on Undirected Graphs

Abstract

The independent cascade model is a widely used framework for simulating the spread of influence in social networks. In this model, activations propagate stochastically through the network, with each edge having a probability of transmitting activation. We study the independent cascade model on undirected graphs with symmetric influence probabilities (pij = pji for all nodes i and j). We focus on persistent activations, where activated nodes remain active indefinitely. Our main result is to demonstrate that this local symmetry in the graph structure induces a global symmetry in the activation dynamics. Specifically, the probability of node j being activated within n steps, starting with only node i activated, equals the probability of node i being activated within n steps, starting with only node j activated, for all n. We establish this result using a novel approach based on random matrices, offering a fresh perspective on the model.