Secure or insure? A game-theoretic analysis of information security games

J Grossklags, N Christin, J Chuang - Proceedings of the 17th …, 2008 - dl.acm.org
Proceedings of the 17th international conference on World Wide Web, 2008dl.acm.org
Despite general awareness of the importance of keeping one's system secure, and
widespread availability of consumer security technologies, actual investment in security
remains highly variable across the Internet population, allowing attacks such as distributed
denial-of-service (DDoS) and spam distribution to continue unabated. By modeling security
investment decision-making in established (eg, weakest-link, best-shot) and novel games
(eg, weakest-target), and allowing expenditures in self-protection versus self-insurance …
Despite general awareness of the importance of keeping one's system secure, and widespread availability of consumer security technologies, actual investment in security remains highly variable across the Internet population, allowing attacks such as distributed denial-of-service (DDoS) and spam distribution to continue unabated. By modeling security investment decision-making in established (e.g., weakest-link, best-shot) and novel games (e.g., weakest-target), and allowing expenditures in self-protection versus self-insurance technologies, we can examine how incentives may shift between investment in a public good (protection) and a private good (insurance), subject to factors such as network size, type of attack, loss probability, loss magnitude, and cost of technology. We can also characterize Nash equilibria and social optima for different classes of attacks and defenses. In the weakest-target game, an interesting result is that, for almost all parameter settings, more effort is exerted at Nash equilibrium than at the social optimum. We may attribute this to the "strategic uncertainty" of players seeking to self-protect at just slightly above the lowest protection level.
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