Applying game theory to analyze attacks and defenses in virtual coordinate systems

Virtual coordinate systems provide an accurate and efficient service that allows hosts on the Internet to determine latency to arbitrary hosts based on information provided by a subset of participating nodes. Unfortunately, the accuracy of the service can be severely impacted by compromised nodes pr...

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Bibliographic Details
Published in2011 IEEE/IFIP 41st International Conference on Dependable Systems & Networks (DSN) pp. 133 - 144
Main Authors Becker, S., Seibert, J., Zage, D., Nita-Rotaru, C., State, R.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2011
Subjects
Accuracy
Coordinate measuring machines
game theory
Games
Measurement uncertainty
Nash equilibrium
Peer to peer computing
security
Silicon
virtual coordinate systems
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Summary:Virtual coordinate systems provide an accurate and efficient service that allows hosts on the Internet to determine latency to arbitrary hosts based on information provided by a subset of participating nodes. Unfortunately, the accuracy of the service can be severely impacted by compromised nodes providing misleading information. We define and use a game theory framework in order to identify the best attack and defense strategies assuming that the attacker is aware of the defense mechanisms. Our approach leverages concepts derived from the Nash equilibrium to model more powerful adversaries. We consider attacks that target the latency estimation (inflation, deflation, oscillation) and defense mechanisms that combine outlier detection with control theory to deter adaptive adversaries. We apply the game theory framework to demonstrate the impact and efficiency of these attack and defense strategies using a well-known virtual coordinate system and real-life Internet data sets.
ISBN:9781424492329
1424492327
ISSN:1530-0889
2158-3927
DOI:10.1109/DSN.2011.5958213