- A-212 (STCS Seminar Room)
In recent years, algorithms for computing game-theoretic solutions have been developed for real-world security domains. These games are between a defender, who must allocate her resources to defend potential targets, and an attacker, who chooses a target to attack. Existing work has assumed the set of defender’s resources to be ﬁxed. This assumption precludes the effective use of approximation algorithms, since a slight change in the defender’s allocation strategy can result in a massive change in her utility. In contrast, we consider a model where resources are obtained at a cost, initiating the study of the following optimization problem: Minimize the total cost of the purchased resources, given that every target has to be defended with at least a certain probability. We give an efficient logarithmic approximation algorithm for this problem (joint work with Vincent Conitzer and Kamesh Munagala).