Add to ORKGTwo players are endowed with resources for setting up N locations on K identical circles, with N> K ≥ 1. The players alternately choose these locations (possibly in batches of more than one in each round) in order to secure the area closer to their locations than that of their rival’s. They face a resource mobility constraint such that not all N locations can be placed in the first round. The player with the highest secured area wins the game and otherwise the game ends in a tie. Earlier research has shown that for K = 1, the second mover always has a winning strategy in this game. In this paper we show that with K> 1, the second mover advantage disappears as in this case both players have a tying strategy. We also study a natural var...
We consider the following two-player game on a graph. A token is located at a vertex, and the player...
We study the discrete Voronoi game, where two players alternately claim vertices of a graph for t ro...
AbstractWe develop the theory of the Isolation Game on a graph G, in which two players alternately “...
Two players are endowed with resources for setting up N locations on K identical circles, with N >...
Two players are endowed with resources for setting up N locations on K open curves of identical leng...
AbstractWe consider a competitive facility location problem with two players. Players alternate plac...
Abstract: "We consider a two-player, sequential location game, with n stages. At each stage, players...
We consider a competitive facility location problem with two players. Players alternate placing poi...
Competitive location problems can be characterized by the fact that the decisions made by others wil...
To what extent does the structure of the players' strategy space influence the efficiency of decentr...
To what extent the structure of the players' strategic space inuences the efficiency of decentralize...
We consider a two-player, sequential location game in d-dimensional Euclidean space with arbitrarily...
This paper studies a repeated play of a family of games by resource-constrained players. To economiz...
We consider a two-player, sequential location game, with n stages. At each stage, players 1 and 2 ch...
Abstract. The paper studies a class of resource-symmetric singleton congestion games with two types ...
We consider the following two-player game on a graph. A token is located at a vertex, and the player...
We study the discrete Voronoi game, where two players alternately claim vertices of a graph for t ro...
AbstractWe develop the theory of the Isolation Game on a graph G, in which two players alternately “...
Two players are endowed with resources for setting up N locations on K identical circles, with N >...
Two players are endowed with resources for setting up N locations on K open curves of identical leng...
AbstractWe consider a competitive facility location problem with two players. Players alternate plac...
Abstract: "We consider a two-player, sequential location game, with n stages. At each stage, players...
We consider a competitive facility location problem with two players. Players alternate placing poi...
Competitive location problems can be characterized by the fact that the decisions made by others wil...
To what extent does the structure of the players' strategy space influence the efficiency of decentr...
To what extent the structure of the players' strategic space inuences the efficiency of decentralize...
We consider a two-player, sequential location game in d-dimensional Euclidean space with arbitrarily...
This paper studies a repeated play of a family of games by resource-constrained players. To economiz...
We consider a two-player, sequential location game, with n stages. At each stage, players 1 and 2 ch...
Abstract. The paper studies a class of resource-symmetric singleton congestion games with two types ...
We consider the following two-player game on a graph. A token is located at a vertex, and the player...
We study the discrete Voronoi game, where two players alternately claim vertices of a graph for t ro...
AbstractWe develop the theory of the Isolation Game on a graph G, in which two players alternately “...