Scalable Adversarial Attack Algorithms on Influence Maximization

Proceedings of the 16th ACM International WSDM Conference (WSDM) |

Preprint

In this paper, we study the adversarial attacks on influence maximization under dynamic influence propagation models in social networks. In particular, given a known seed set ๐‘†, the problem is to minimize the influence spread from ๐‘† by deleting a limited number of nodes and edges. This problem reflects many application scenarios, such as blocking virus (e.g. COVID-19) propagation in social networks by quarantine and vaccination, blocking rumor spread by freezing fake accounts, or attacking competitorโ€™s influence by incentivizing some users to ignore the information from the competitor. In this paper, under the linear threshold model, we adapt the reverse influence sampling approach and provide efficient algorithms of sampling valid reverse reachable paths to solve the problem. We present three different design choices on reverse sampling, which all guarantee 1/2 โˆ’๐œ€ approximation (for any small ๐œ€ > 0) and an efficient running time.