We study Nash equilibria and the price of anarchy in the classical model of Network Creation Games introduced by Fabrikant et al. In this model every agent (node) buys links at a prefixed price a > 0 in order to get connected to the network formed by all the n agents. In this setting, the reformulated tree conjecture states that for a > n, every Nash equilibrium network is a tree. Since it was shown that the price of anarchy for trees is constant, if the tree conjecture were true, then the price of anarchy would be constant for a > n. Moreover, Demaine et al. conjectured that the price of anarchy for this model is constant. Up to now the last conjecture has been proven in (i) the lower range, for a = O(n1-o¿) with o¿ = 1 and (ii) in the up...
We introduce a novel game that models the creation of Internet-like networks by selfish node-agents ...
Network creation games have been studied in many different settings recently. These games are motiva...
Congestion games model self-interested agents competing for resources in communication networks. The...
We study Nash equilibria and the price of anarchy in the classical model of Network Creation Games i...
We study the price of anarchy and the structure of equilibria in network creation games. A network c...
Key words: Network Creation Games, Price of Anarchy, Equilibria This master thesis focuses its atten...
We study a network creation game recently proposed by Fabrikant, Luthra, Maneva, Papadimitriou and S...
We study Nash equilibria in the setting of network creation games introduced recently by Fabrikant, ...
The Internet has emerged as perhaps the most important network in modern computing, but rather mirac...
We study Nash equilibria and the price of anarchy in the classic model of Network Creation Games int...
In the network creation game with n vertices, every vertex (a player) buys a set of adjacent edges, ...
This master thesis focuses its attention in the Sum Classic model introduced by Fabrikant et al. whi...
We study the Nash equilibrium and the price of anarchy in the max-distance network creation game. Ne...
We analyze the structure of equilibria and the price of anarchy in the family of network creation ga...
We study strong equilibria in network creation games. These form a classical and well-studied class ...
We introduce a novel game that models the creation of Internet-like networks by selfish node-agents ...
Network creation games have been studied in many different settings recently. These games are motiva...
Congestion games model self-interested agents competing for resources in communication networks. The...
We study Nash equilibria and the price of anarchy in the classical model of Network Creation Games i...
We study the price of anarchy and the structure of equilibria in network creation games. A network c...
Key words: Network Creation Games, Price of Anarchy, Equilibria This master thesis focuses its atten...
We study a network creation game recently proposed by Fabrikant, Luthra, Maneva, Papadimitriou and S...
We study Nash equilibria in the setting of network creation games introduced recently by Fabrikant, ...
The Internet has emerged as perhaps the most important network in modern computing, but rather mirac...
We study Nash equilibria and the price of anarchy in the classic model of Network Creation Games int...
In the network creation game with n vertices, every vertex (a player) buys a set of adjacent edges, ...
This master thesis focuses its attention in the Sum Classic model introduced by Fabrikant et al. whi...
We study the Nash equilibrium and the price of anarchy in the max-distance network creation game. Ne...
We analyze the structure of equilibria and the price of anarchy in the family of network creation ga...
We study strong equilibria in network creation games. These form a classical and well-studied class ...
We introduce a novel game that models the creation of Internet-like networks by selfish node-agents ...
Network creation games have been studied in many different settings recently. These games are motiva...
Congestion games model self-interested agents competing for resources in communication networks. The...