research unit 1

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Type of publication:Article
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TitleStructure and complexity of extreme Nash equilibria
Bibtex cite IDRACTI-RU1-2005-62
Journal Theoretical Computer Science (TCS)
Year published 2005
Month October
Volume 343
Number 1-2
Pages 133-157
DOI 10.1016/j.tcs.2005.05.011
Keywords Selfish routing; Extreme Nash equilibria
We study extreme Nash equilibria in the context of a selfish routing game. Specifically, we assume a collection of n users, each employing a mixed strategy, which is a probability distribution over m parallel identical links, to control the routing of its own assigned traffic. In a Nash equilibrium, each user selfishly routes its traffic on those links that minimize its expected latency cost. The social cost of a Nash equilibrium is the expectation, over all random choices of the users, of the maximum, over all links, latency through a link. We provide substantial evidence for the Fully Mixed Nash Equilibrium Conjecture, which states that the worst Nash equilibrium is the fully mixed Nash equilibrium, where each user chooses each link with positive probability. Specifically, we prove that the Fully Mixed Nash Equilibrium Conjecture is valid for pure Nash equilibria. Furthermore, we show, that under a certain condition, the social cost of any Nash equilibrium is within a factor of 2h(1+ɛ) of that of the fully mixed Nash equilibrium, where h is the factor by which the largest user traffic deviates from the average user traffic. Considering pure Nash equilibria, we provide a PTAS to approximate the best social cost, we give an upper bound on the worst social cost and we show that it is View the MathML source-hard to approximate the worst social cost within a multiplicative factor better than 2-2/(m+1).
Mavronicolas, Marios
Monien, Burkhart
Gairing, Martin
Luecking, T.
Spirakis, Paul
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Publication ID589