Efficiency and stability of Nash equilibria in resource allocation games
GameNets'09 Proceedings of the First ICST international conference on Game Theory for Networks
Parameterized Supply Function Bidding: Equilibrium and Efficiency
Operations Research
The Worst-Case Efficiency of Cost Sharing Methods in Resource Allocation Games
Operations Research
Optimal Cost Sharing for Resource Selection Games
Mathematics of Operations Research
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We study the design of price mechanisms for communication network problems in which a user’s utility depends on the amount of flow she sends through the network, and the congestion on each link depends on the total traffic flows over it. The price mechanisms are characterized by a set of axioms that have been adopted in the cost-sharing games, and we search for the price mechanisms that provide the minimum price of anarchy. We show that, given the non-decreasing and concave utilities of users and the convex quadratic congestion costs in each link, if the price mechanism cannot depend on utility functions, the best achievable price of anarchy is $${{4(3-2 \sqrt{2}) \approx 31.4 \% }}$$. Thus, the popular marginal cost pricing with price of anarchy less than 1/3 ≈ 33.3% is nearly optimal. We also investigate the scenario in which the price mechanisms can be made contingent on the users’ preference profile while such information is available.