%0 Journal Article
%D 2012
%T Optimal Response to Epidemics and Cyber Attacks in Networks
%A N. Goldberg
%A Sven Leyffer
%A I. Safro
%X This paper introduces novel formulations for optimally responding to epidemics and cyber attacks in networks. In our models, at a given time period, network nodes (e.g., users or computing resources) are associated with probabilities of being infected, and each network edge is associated with some probability of propagating the infection. A decision maker would like to maximize the networks utility; keeping as many nodes open as possible, while satisfying given bounds on the probabilities of nodes being infected in the next time period. The models relation to previous deterministic optimization models and to both probabilistic and deterministic asymptotic models is explored. Initially, we formulate a nonlinear integer program with high order multilinear terms. We then propose a quadratic approximation that provides a lower bound and feasible solution to the original problem and can be easily linearized and solved by standard integer programming solvers. We also devise a novel application and extension of cover inequalities for our formulation, to speed the solution using standard solvers.
%8 01/2012
%G eng
%1 http://www.mcs.anl.gov/papers/P1992-0112.pdf