English

Interdependent Defense Games: Modeling Interdependent Security under Deliberate Attacks

Computer Science and Game Theory 2012-10-19 v1 Cryptography and Security

Abstract

We propose interdependent defense (IDD) games, a computational game-theoretic framework to study aspects of the interdependence of risk and security in multi-agent systems under deliberate external attacks. Our model builds upon interdependent security (IDS) games, a model due to Heal and Kunreuther that considers the source of the risk to be the result of a fixed randomizedstrategy. We adapt IDS games to model the attacker's deliberate behavior. We define the attacker's pure-strategy space and utility function and derive appropriate cost functions for the defenders. We provide a complete characterization of mixed-strategy Nash equilibria (MSNE), and design a simple polynomial-time algorithm for computing all of them, for an important subclass of IDD games. In addition, we propose a randominstance generator of (general) IDD games based on a version of the real-world Internet-derived Autonomous Systems (AS) graph (with around 27K nodes and 100K edges), and present promising empirical results using a simple learning heuristics to compute (approximate) MSNE in such games.

Keywords

Cite

@article{arxiv.1210.4838,
  title  = {Interdependent Defense Games: Modeling Interdependent Security under Deliberate Attacks},
  author = {Hau Chan and Michael Ceyko and Luis E. Ortiz},
  journal= {arXiv preprint arXiv:1210.4838},
  year   = {2012}
}

Comments

Appears in Proceedings of the Twenty-Eighth Conference on Uncertainty in Artificial Intelligence (UAI2012)

R2 v1 2026-06-21T22:23:31.124Z